tag:blogger.com,1999:blog-35070238506109114242023-11-16T12:45:35.269+05:30Physics Fun Days!Abhayhttp://www.blogger.com/profile/03695860755955613728noreply@blogger.comBlogger37125tag:blogger.com,1999:blog-3507023850610911424.post-3366159158249396252011-12-13T21:45:00.001+05:302011-12-13T21:45:10.639+05:30Preferential cooking<div dir="ltr" style="text-align: left;" trbidi="on">If you take Channa dal and Moong dal, any cook will tell you, that Channa dal takes much longer to get cooked. Say 5 whistles. Whereas Moong dal can get cooked in 3. Now in case you want to make mixed dal, and put both of them together in a cooker, even if you give 5 whistles, you find that Channa dal is not cooked, and Moong dal is (naturally) over cooked, almost ground. Why is that Channa dal didn't get the required heat, even after giving 5 whistles!?<br />
<br />
The very fact that Channa dal takes longer to cook, implies that it has less heat capacity. When we supply the heat to the mixture, the Moong dal with lower heat capacity absorbs more heat than Channa dal, and Channa dal remains un-cooked !</div>Abhay Karnatakihttp://www.blogger.com/profile/03735264276408589770noreply@blogger.com1tag:blogger.com,1999:blog-3507023850610911424.post-73894953146690963322011-08-02T23:34:00.004+05:302011-08-03T00:32:51.046+05:30Mustard Seeds<span class="Apple-style-span"><a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEg4wjw1YhZbDokP8OT_I2gDiCElTO5bFZWCm0VnbEaxCuXLIfbcKyJBLZDb9vHJbxGlImnehVqQgZJZEdXd2R8wckIbdVpwwsyT-yMD8fAIMf06w9MMjFI3g67pO0M6Wvb09XCIRGTlYPL8/s1600/Photo+on+2011-08-02+at+23.16.jpg" onblur="try {parent.deselectBloggerImageGracefully();} catch(e) {}"><img style="display:block; margin:0px auto 10px; text-align:center;cursor:pointer; cursor:hand;width: 320px; height: 240px;" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEg4wjw1YhZbDokP8OT_I2gDiCElTO5bFZWCm0VnbEaxCuXLIfbcKyJBLZDb9vHJbxGlImnehVqQgZJZEdXd2R8wckIbdVpwwsyT-yMD8fAIMf06w9MMjFI3g67pO0M6Wvb09XCIRGTlYPL8/s320/Photo+on+2011-08-02+at+23.16.jpg" border="0" alt="" id="BLOGGER_PHOTO_ID_5636321382727970146" /></a>This is a simple packet of mustard seeds. Do you notice that some of the seeds are clinging the side of the packet? Simply open and pour a packet of Mustard seeds and then you will see this happening. </span><div><span class="Apple-style-span">Why are these seeds hanging around!? What stops them from falling to the bottom like the rest of the seeds? What gives them repulsive force to oppose the force of gravity?<br />It doesn't happen like this, for example, for a salt or a sugar packet. </span></div><div><span class="Apple-style-span">In case of mustard seeds, what is happening is, the seeds are getting charged up, and the charge stays on them for a while, after which they become neutral. The charging is due to stripping off of an electron or two from the lattice of the mustard seed. </span></div><div><span class="Apple-style-span">Can you estimate how much is the force generated because of charges separated in the case of mustard seeds shown in packet?</span></div><div><span class="Apple-style-span">Assume that two seeds are 1 cm apart, and 1 seed's force on the other is balancing its weight.</span></div><div><span class="Apple-style-span"><span class="Apple-tab-span" style="white-space:pre"> </span>mg=k(q^2)/(r^2)</span></div><div><span class="Apple-style-span">m= mass = density * volume =<span class="Apple-style-span" style="line-height: 14px; background-color: rgb(255, 248, 220); "> 0.426902 gm/cm^3 * volume</span> from this <a href="http://www.aqua-calc.com/page/density-table/substance/Spices-coma-and-blank-mustard-blank-seed-coma-and-blank-ground">link</a>. </span></div><div><span class="Apple-style-span">g= 980 cm/s^2</span></div><div><span class="Apple-style-span">k= 1 in case of CGS units</span></div><div><span class="Apple-style-span">q= charge to be found out</span></div><div><span class="Apple-style-span">r=1cm</span></div><div><span class="Apple-style-span">Rad= radius or mustard seed = 1 mm say = 0.1 cm</span></div><div><span class="Apple-style-span"><br /></span></div><div><span class="Apple-style-span">hence q^2= density*volume*g* r^2</span></div><div><span class="Apple-style-span"><br /></span></div><div><span class="Apple-style-span">hence q= sqrt(0.426902 * (4/3)*3.14 * 10^(-3) * 980 * 1^2)</span></div><div><span class="Apple-style-span"><span class="Apple-tab-span" style="white-space:pre"> </span>= 1.132346 <span class="Apple-style-span" style="line-height: 14px; ">statCoulomb</span> </span></div><div><span class="Apple-tab-span" style="white-space:pre"><span class="Apple-style-span"> </span></span></div><div><span class="Apple-style-span" style="line-height: 14px; "><span class="Apple-style-span"><br /></span></span></div><div><span class="Apple-style-span"><span class="Apple-style-span" style="line-height: 14px; ">and using 1 StatCoulomb =</span><span class="Apple-style-span" style="line-height: 16px; background-color: rgb(255, 255, 255); "> 0.1 Am/c ≈ 3.3364×10<sup>10</sup> C</span></span></div><div><span class="Apple-style-span" style="line-height: 16px; background-color: rgb(255, 255, 255); "><span class="Apple-style-span">and charge on one electron , e = 1.6 * 10 ^ (-19) C, we get</span></span></div><div><span class="Apple-style-span" style="line-height: 16px; background-color: rgb(255, 255, 255); "><span class="Apple-style-span"><br /></span></span></div><div><span class="Apple-style-span"><span class="Apple-style-span" style="line-height: 16px; background-color: rgb(255, 255, 255); "><span class="Apple-tab-span" style="white-space:pre"> </span>q = </span> 1.132346 <span class="Apple-style-span" style="line-height: 16px; background-color: rgb(255, 255, 255); ">* 3.3364 * (10 ^ 10 ) C = 3.77796e+10 C which is a huge charge! so the mustard seeds are not hanging on the sides because of repulsive forces. They are sharing particular positions on the plastic cover. What must be happening is that the electrons are stripped off the mustard seed, and deposited on the plastic cover. The same equation with r = 1 0 Angstrom (Typical lattice planes separation distances are in this range, e.g. from this <a href="http://www.siliconfareast.com/lattice_constants.htm">ref</a>.) then becomes </span></span></div><div><span class="Apple-style-span" style="line-height: 16px; background-color: rgb(255, 255, 255); "><span class="Apple-style-span"><br /></span></span></div><div><span class="Apple-style-span" style="line-height: 16px; background-color: rgb(255, 255, 255); "><span class="Apple-style-span">r= 10 Angstrom = 10 * 10^(-10) m = 10 * 10 ^ (-8) cm = 10^(-7) cm </span></span></div><div><span class="Apple-style-span" style="line-height: 16px; background-color: rgb(255, 255, 255); "><span class="Apple-style-span"><br /></span></span></div><div><span class="Apple-style-span"><span class="Apple-style-span" style="line-height: 16px; background-color: rgb(255, 255, 255); ">q = sqrt ( </span>0.426902 * (4/3)*3.14 * 10^(-3) * 980 * 10^(-14) )</span></div><div><span class="Apple-style-span">= 1.32 * 10 ^(-7) stat coulomb</span></div><div><span class="Apple-style-span"><br /></span></div><div><span class="Apple-style-span">= 1.32 * 10 ^(-7)* <span class="Apple-style-span" style="line-height: 16px; background-color: rgb(255, 255, 255); ">3.3364 * (10 ^ 10 ) C</span></span></div><div><span class="Apple-style-span" style="line-height: 16px; background-color: rgb(255, 255, 255); "><span class="Apple-style-span"><br /></span></span></div><div><span class="Apple-style-span" style="line-height: 16px; background-color: rgb(255, 255, 255); "><span class="Apple-style-span">= 4415 C= 3806 * 10^19 e</span></span></div><div><span class="Apple-style-span" style="line-height: 16px; background-color: rgb(255, 255, 255); "><span class="Apple-style-span">which is also huge. </span></span></div><div><span class="Apple-style-span" style="line-height: 16px; background-color: rgb(255, 255, 255); "><span class="Apple-style-span"><br /></span></span></div><div><span class="Apple-style-span" style="line-height: 16px; background-color: rgb(255, 255, 255); "><span class="Apple-style-span">So what must be happening is, even at smaller level, say 1 Angstrom , the electrons are stripped off and deposited to the plastic cover. Then some kind of temporary chemical bondings must be</span></span><span class="Apple-style-span" style="line-height: 16px; background-color: rgb(255, 255, 255); "> happening, since we approach molecular distances at that level.</span></div><div><span class="Apple-style-span" style="line-height: 16px; background-color: rgb(255, 255, 255); "><span class="Apple-style-span"><br /></span></span></div><div><span class="Apple-style-span" style="line-height: 16px; background-color: rgb(255, 255, 255); "><span class="Apple-style-span">Notice how in this simple physical situation in front, we could calculate and figure out what's happening in there. Thus physics helps you to be a Sherlock Holmes in the nature's mysterious ways of functioning! </span></span></div><div><span class="Apple-style-span" style="line-height: 16px; background-color: rgb(255, 255, 255); "><span class="Apple-style-span"><br /></span></span></div><div><br /></div>Abhay Karnatakihttp://www.blogger.com/profile/03735264276408589770noreply@blogger.com1tag:blogger.com,1999:blog-3507023850610911424.post-62370898008439418062010-05-08T17:19:00.001+05:302010-05-08T17:21:06.296+05:30Electrostatics Lab demo<object width="480" height="385"><param name="movie" value="http://www.youtube.com/v/yU55lXbrV0U&hl=en_US&fs=1&"></param><param name="allowFullScreen" value="true"></param><param name="allowscriptaccess" value="always"></param><embed src="http://www.youtube.com/v/yU55lXbrV0U&hl=en_US&fs=1&" type="application/x-shockwave-flash" allowscriptaccess="always" allowfullscreen="true" width="480" height="385"></embed></object>Abhay Karnatakihttp://www.blogger.com/profile/03735264276408589770noreply@blogger.com1tag:blogger.com,1999:blog-3507023850610911424.post-44193967918134910742009-12-03T01:36:00.003+05:302009-12-03T01:54:46.176+05:30for Engineers wanting to pursue PhD<div>There are number of queries of Engineers {Who probably got strayed into tech biz but had a inner longing to do Physics!:) } who would like to pursue a research Career, so this blog.</div>You are most welcome to do a PhD in Astronomy and Astrophysics. Visit <a href="http://www.iiap.res.in">IIA website</a> for details of application procedure, exams and interviews to be taken. PhD in Computation or Instrumentation or Electronics based experimentation, Observational Astronomy would be possible.<div>Not much prior knowledge of Astronomy is expected as you will be given good grinding in Research Training Program (RTP) in the first year of joining. {You need to clear it well to get into second year!}<br /><div><br /></div><div>Many institutes have their own entrance tests and interviews. Check their websites and call their offices.</div><div><br /></div><div>You can prepare for JEST and/or NET Physics and/or GATE Physics as follows:-</div><div><br /></div><div>0.Check their syllabus</div><div>1. Brush up your FE Fundamentals of Physics book</div><div>2. Refer</div><div>*Fundamentals of Physics by Resnik and Halliday.</div><div>*Concepts of Modern Physics by Arthur Beiser.</div><div>*Electrodynamics by Griffith</div><div>3. Catch up with some sample papers from the same agency where you apply for these exams</div><div>4. Solve loads of problems. You Cant Survive In Research if you don't like to solve problems. Only understanding Stuff is not enough... :) ''Physics by Example'' by Rees is a good start. Actually, any good problem solving book with detailed solutions is good enough. Check solution after you have attempted the problem, and see where you made mistake, if any.</div><div><br /></div><div>This is not necessarily the most complete and sufficient prep! Apply for a YES!+ also... check <a href="http://www.yesplus.org">www.yesplus.org</a></div><div><br /></div><div>All the best!</div></div>Abhay Karnatakihttp://www.blogger.com/profile/03735264276408589770noreply@blogger.com0tag:blogger.com,1999:blog-3507023850610911424.post-67775681366825992652009-12-02T00:50:00.001+05:302009-12-03T01:36:39.674+05:30The younger Twin<div><span class="Apple-style-span" style="font-size:medium;"><span class="Apple-style-span" style="font-family:georgia;">Thanks to <a href="http://amritasinha.wordpress.com/">Amrita</a> for asking this question about Twin Paradox.</span></span><span class="Apple-style-span" style="font-size:medium;"><span class="Apple-style-span" style="font-family:georgia;"> It was a thoughtful question,</span></span><span class="Apple-style-span" style="font-size:medium;"><span class="Apple-style-span" style="font-family:georgia;"> and the right questions at right time can lead to Big progress and good understanding.</span></span><span class="Apple-style-span" style="font-size:medium;"><span class="Apple-style-span" style="font-family:georgia;"> I have quoted below this dialog as it is. It reminds me of one story from Puranas, which indicates that the superfast(close to c) time travel could have been possible earlier.</span></span></div><div><span class="Apple-style-span" style="font-family:georgia;"><br /></span></div><div><span class="Apple-style-span" style="font-family:georgia;"><span class="Apple-style-span" style="font-size:medium;">The story goes like this:-</span></span></div><div><span class="Apple-style-span" style="font-family:georgia;"><br /></span></div><div><span class="Apple-style-span" style="font-family:georgia;"><span class="Apple-style-span" style="font-size:medium;">There was a King and he had a pretty daughter. He couldn't find a suitable groom for his pretty daughter, and so he set himself and her on a travel to Brahmaloka. When he reached Brahmaloka, Brahma gave him blessing and asked him to marry her to the King of a certain country on Earth. Happy, the King traveled back to the Earth with his daughter. Coming to the earth, he was so surprised that his city, his buildings and people were not there at all. In his City, he himself and all the human beings were as tall as a coconut tree. And he was shocked to see the human beings in the size of 5-6 feet, so small compared to him and her daughter. Upon inquiry, the King got to know that their civilization used to exist several thousand centuries ago! Though the King and his daughter had only aged by an year or so, the time had elapsed much faster on the earth. The King got his daughter married to a noble Prince and they lived happily ever after.</span></span></div><div><span class="Apple-style-span" style="font-family:georgia;"><span class="Apple-style-span" style="font-size:medium;"><br /></span></span></div><div><span class="Apple-style-span" style="font-family:georgia;"><span class="Apple-style-span" style="font-size:medium;">Conclusion:- the King and his daughter had traveled very fast, and Brahma loka could have been a really far away place!</span></span></div><div><span class="Apple-style-span" style=" color: rgb(51, 51, 51); font-family:'Trebuchet MS', Verdana, Arial, sans-serif;font-size:small;"><div id="comments-bar-info" style="padding-top: 3.5em; padding-right: 0px; padding-bottom: 1.5em; padding-left: 0px; width: 350px; "><div class="r" style="clear: both; display: block; margin-top: 0px; margin-right: 0px; margin-bottom: 0px; margin-left: 0px; padding-top: 0px; padding-right: 0px; padding-bottom: 0px; padding-left: 0px; height: 1px; line-height: 1px; font-size: 1px; ">Thanks</div></div><a name="comments" style="color: rgb(51, 102, 204); font-weight: bold; text-decoration: underline; "></a><dl id="comments-block" style="padding-top: 0px; padding-right: 2.5em; padding-bottom: 2em; padding-left: 1.2em; margin-top: 0px; margin-right: 0px; margin-bottom: 0px; margin-left: 0px; "><dt id="c478063591604749719" style="margin-top: 0px; margin-right: 0px; margin-bottom: 0px; margin-left: 0px; font: normal normal bold 112%/1.4em Arial, Verdana, sans-serif; padding-top: 0px; padding-bottom: 0.25em; white-space: nowrap; cursor: pointer; "><img src="https://www.blogger.com/img/blank.gif" class="comment-icon blogger-comment" alt="Blogger" style="width: 16px; height: 16px; margin-right: 4px; background-image: url(https://www.blogger.com/img/cmt/comment_sprite.gif); background-repeat: no-repeat; background-attachment: initial; -webkit-background-clip: initial; -webkit-background-origin: initial; background-color: initial; background-position: -45px -117px; " /> <span dir="ltr"><a href="http://www.blogger.com/profile/10051528746713264015" rel="nofollow" onclick="" style="color: rgb(51, 102, 204); font-weight: bold; text-decoration: underline; ">Amrita</a></span> said...</dt><dd style="padding-bottom: 0.75em; border-bottom-width: 1px; border-bottom-style: solid; border-bottom-color: rgb(204, 204, 204); margin-top: 0px; margin-right: 0px; margin-bottom: 0.75em; margin-left: 0px; line-height: 18px; "><p style="margin-top: 0px; margin-right: 0px; margin-bottom: 0.75em; margin-left: 0px; line-height: 18px; ">Hi,I was reading theory of relativity and found that "Time Dilation is a reciprocal effect",if it is so then why in case of twin paradox,one of the twins who goes to the space and come back, remains younger than the other who stays back on the earth!</p><p class="comment-timestamp" style="margin-top: 0px; margin-right: 0px; margin-bottom: 0.75em; margin-left: 0px; color: rgb(119, 119, 119); font-size: 12px; line-height: 16px; ">November 23, 2009 10:41 PM</p><span class="item-control"><a href="https://www.blogger.com/delete-comment.g?blogID=3507023850610911424&postID=478063591604749719" onclick="" title="Delete Comment" style="color: rgb(51, 102, 204); font-weight: bold; text-decoration: underline; border-top-style: none; border-right-style: none; border-bottom-style: none; border-left-style: none; border-width: initial; border-color: initial; "><img class="icon_delete" src="https://www.blogger.com/img/blank.gif" alt="Delete" style="background-image: url(https://www.blogger.com/img/cmt/comment_sprite.gif); background-repeat: no-repeat; background-attachment: initial; -webkit-background-clip: initial; -webkit-background-origin: initial; background-color: initial; width: 13px; height: 13px; border-top-style: none; border-right-style: none; border-bottom-style: none; border-left-style: none; border-width: initial; border-color: initial; background-position: -32px -101px; " /></a></span><div class="r" style="clear: both; display: block; margin-top: 0px; margin-right: 0px; margin-bottom: 0px; margin-left: 0px; padding-top: 0px; padding-right: 0px; padding-bottom: 0px; padding-left: 0px; height: 1px; line-height: 1px; font-size: 1px; "></div></dd><dt id="c6862302712546133165" style="margin-top: 0px; margin-right: 0px; margin-bottom: 0px; margin-left: 0px; font: normal normal bold 112%/1.4em Arial, Verdana, sans-serif; padding-top: 0px; padding-bottom: 0.25em; white-space: nowrap; cursor: pointer; "><div class="profile-image-container" style="float: right; margin-top: 0.4em; margin-right: 0px; margin-bottom: 0.2em; margin-left: 0.8em; position: relative; z-index: 2; "><span dir="ltr"><a href="http://www.blogger.com/profile/03735264276408589770" rel="nofollow" onclick="" style="color: rgb(51, 102, 204); font-weight: bold; text-decoration: underline; "><img src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEg7oT2l0DSyhMoeh-qOsb9GTxQ9-RS0SYNcYoKb8ntseAHydz8hOt0WJS-0JiGFdtxHHYwSXfBFv4MxqHQ59lwC78toQtxW4DJbtsc0NxrjtHolP8czBNw8RVZh9vjrQge0aZO7CVV-a8r6/s220/snapshot5.jpg" width="60" height="45" class="profile" alt="" title="Abhay Karnataki" onload="setAttributeOnload(this, "src", "https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEg7oT2l0DSyhMoeh-qOsb9GTxQ9-RS0SYNcYoKb8ntseAHydz8hOt0WJS-0JiGFdtxHHYwSXfBFv4MxqHQ59lwC78toQtxW4DJbtsc0NxrjtHolP8czBNw8RVZh9vjrQge0aZO7CVV-a8r6/s220/snapshot5.jpg")" style="padding-top: 0.2em; padding-right: 0.2em; padding-bottom: 0.2em; padding-left: 0.2em; border-top-width: 1px; border-right-width: 1px; border-bottom-width: 1px; border-left-width: 1px; border-top-style: solid; border-right-style: solid; border-bottom-style: solid; border-left-style: solid; border-top-color: rgb(187, 187, 187); border-right-color: rgb(187, 187, 187); border-bottom-color: rgb(187, 187, 187); border-left-color: rgb(187, 187, 187); " /></a></span></div><img src="https://www.blogger.com/img/blank.gif" class="comment-icon blogger-comment" alt="Blogger" style="width: 16px; height: 16px; margin-right: 4px; background-image: url(https://www.blogger.com/img/cmt/comment_sprite.gif); background-repeat: no-repeat; background-attachment: initial; -webkit-background-clip: initial; -webkit-background-origin: initial; background-color: initial; background-position: -45px -117px; " /> <span dir="ltr"><a href="http://www.blogger.com/profile/03735264276408589770" rel="nofollow" onclick="" style="color: rgb(51, 102, 204); font-weight: bold; text-decoration: underline; ">Abhay Karnataki</a></span> said...</dt><dd style="padding-bottom: 0.75em; border-bottom-width: 1px; border-bottom-style: solid; border-bottom-color: rgb(204, 204, 204); margin-top: 0px; margin-right: 0px; margin-bottom: 0.75em; margin-left: 0px; line-height: 18px; "><p style="margin-top: 0px; margin-right: 0px; margin-bottom: 0.75em; margin-left: 0px; line-height: 18px; ">good question.<br />now here we have to understand that though there is no single absolute inertial frame for all observers, you can definitely make out if your frame is inertial or not.<br />if you are in a car and close your eyes, then even when the car turns, your body bends to one side or other, showing the acceleration, and hence non-inertial nature of the frame attached to the car.<br />Similarly, in the twin brothers travel, one brother is definitely getting accelerated at the end of the journey, and he is the one who comes out to be younger. the brother in his rest frame doesn't experience any acceleration at any time.<br />if the other brother would not have returned any time, then the time dilation is exactly reciprocal.</p><p class="comment-timestamp" style="margin-top: 0px; margin-right: 0px; margin-bottom: 0.75em; margin-left: 0px; color: rgb(119, 119, 119); font-size: 12px; line-height: 16px; ">November 23, 2009 10:47 PM</p></dd></dl></span></div>Abhay Karnatakihttp://www.blogger.com/profile/03735264276408589770noreply@blogger.com1tag:blogger.com,1999:blog-3507023850610911424.post-92164136978369179362009-11-27T22:57:00.002+05:302009-11-27T23:18:41.803+05:30Newton's laws of motion<span class="Apple-style-span" style="color:#6600CC;">The Newton's first law of motion states ''A body continues to be in the state of rest or constant motion unless it is acted upon by an external agency.''</span><div><span class="Apple-style-span" style="color:#6600CC;">The Newton's second law states "The acceleration of a particle is directly proportional to the external force applied on it and inversely proportional to the mass of the particle."</span></div><div><span class="Apple-style-span" style="color:#6600CC;"><br /></span></div><div><span class="Apple-style-span" style="color:#6600CC;">The Question that should naturally arise in a student's mind is, if F=0, what is the need to state the first law separately, because it can be deduced from second law that a=0 and hence velocity is constant. So is the first law necessary!?</span></div><div><br /></div><div><span class="Apple-style-span" style="color:#FFFFFF;">Ans:-</span></div><div><span class="Apple-style-span" style="color:#FFFFFF;">The measurement of distances and time are done in a reference frame. The first law of motion defines a reference frame where the motion doesn't change unless and otherwise acted upon by an external agency. e.g. you could be in a car that's going along a hillside region of ups and downs and turns. In a reference frame attached to the car, a particle within the car will not remain stationary or in constant motion. So in such a reference frame, the first law is not applicable, and such frame is ruled out in the Newton's scheme of study of dynamics directly. But you could choose a frame fixed to earth say, in which the first law will hold, even if Car moves around. Such a frame where first law holds, is called inertial frame of reference- inertia of a body is maintained. Now again, a frame attached to earth is not infinitely inertial frame of reference, as the earth itself rotates and revolves. for a trajectory of a plane e.g., Earth's frame becomes non-inertial. So you can use a bigger frame at rest w.r.t Sun. But then even it is non-inertial, when you discuss motion of comets, as the Sun moves in the galaxy... So use even bigger frame at the center of galaxy... and finally even bigger in the outer space in between galaxies and galaxy clusters, so that first law is valid in that reference frame.</span></div><div><span class="Apple-style-span" style="color:#FFFFFF;">Either you can keep changing a reference standard for inertial frame, or you can say that so and so part of the space is a good ''local'' inertial reference frame, observed for a so and so interval of time, over which the first law is valid.</span></div><div><span class="Apple-style-span" style="color:#FFFFFF;">In such an inertial frame, second law can be used to calculate the acceleration 'a'.</span></div><div><span class="Apple-style-span" style="color:#FFFFFF;"><br /></span></div><div><br /></div>Abhay Karnatakihttp://www.blogger.com/profile/03735264276408589770noreply@blogger.com0tag:blogger.com,1999:blog-3507023850610911424.post-19771830678462501082009-07-28T13:07:00.002+05:302009-07-28T13:07:00.302+05:30High-performance Computing using Graphics Processors<span class="Apple-style-span" style="color: rgb(0, 0, 51); -webkit-border-horizontal-spacing: 2px; -webkit-border-vertical-spacing: 2px; font-family:Arial;font-size:12px;"><div><a href="http://www.iiap.res.in/people/personnel/reks/index.php">Dr. Rekesh Mohan</a> gave a very interesting seminar in our Institute recently. It was about the use of existing hardware used for graphics applications for high performance computing. </div><div><br /></div>An important recent trend in high-performance computing is the use of hardware originally designed for graphics and games to solve general purpose computing problems. Modern Graphics Processing Units (GPUs) deliver enormous power for arithmetically-intensive computations, at extremely low cost and power consumption as compared to CPU based computing clusters. </span><div><span class="Apple-style-span" style="color: rgb(0, 0, 51); -webkit-border-horizontal-spacing: 2px; -webkit-border-vertical-spacing: 2px;font-family:Arial;font-size:12px;"><br /></span></div><div><span class="Apple-style-span" style="color: rgb(0, 0, 51); -webkit-border-horizontal-spacing: 2px; -webkit-border-vertical-spacing: 2px;font-family:Arial;font-size:12px;">The existing programs need to be modified using the syntax that can be understood by the Graphics Processing units. This requires certain libraries and commands. The speed could be enhanced to 10-100 times, and is cost effective compared to parallel CPU cluster method. </span></div><div><span class="Apple-style-span" style="color: rgb(0, 0, 51); -webkit-border-horizontal-spacing: 2px; -webkit-border-vertical-spacing: 2px;font-family:Arial;font-size:12px;"><br /></span></div><div><span class="Apple-style-span" style="color: rgb(0, 0, 51); -webkit-border-horizontal-spacing: 2px; -webkit-border-vertical-spacing: 2px;font-family:Arial;font-size:12px;">Check here for two platforms to use for GPU programming:- </span></div><div><span class="Apple-style-span" style="color: rgb(0, 0, 51); -webkit-border-horizontal-spacing: 2px; -webkit-border-vertical-spacing: 2px;font-family:Arial;font-size:12px;"><a href="http://en.wikipedia.org/wiki/GPGPU">GPGPU General Purpose Graphics Processing Unit </a></span></div><div><span class="Apple-style-span" style="color: rgb(0, 0, 51); -webkit-border-horizontal-spacing: 2px; -webkit-border-vertical-spacing: 2px;font-family:Arial;font-size:12px;"><a href="http://en.wikipedia.org/wiki/CUDA">CUDA </a><span class="Apple-style-span" style="color: rgb(0, 0, 0); line-height: 19px; -webkit-border-horizontal-spacing: 0px; -webkit-border-vertical-spacing: 0px; font-family:-webkit-sans-serif;font-size:13px;"><a href="http://en.wikipedia.org/wiki/CUDA">Compute Unified Device Architecture</a></span></span></div><div><span class="Apple-style-span" style=" line-height: 19px;font-family:-webkit-sans-serif;font-size:13px;"><br /></span></div>Abhay Karnatakihttp://www.blogger.com/profile/03735264276408589770noreply@blogger.com1tag:blogger.com,1999:blog-3507023850610911424.post-91131338131284005202009-07-27T11:59:00.003+05:302009-07-27T22:29:26.280+05:30Lectures on General Theory of RelativityLectures on General Theory of Relativity, by Prof. T. Padmanabhan have been uploaded <a href="http://gr-lectures-paddy.blogspot.com/">here</a>.<div><br /></div><div><object classid="clsid:D27CDB6E-AE6D-11cf-96B8-444553540000" width="437" height="370" id="viddler"><param name="movie" value="http://www.viddler.com/player/8bc97c25/"><param name="allowScriptAccess" value="always"><param name="allowFullScreen" value="true"><embed src="http://www.viddler.com/player/8bc97c25/" width="437" height="370" type="application/x-shockwave-flash" allowscriptaccess="always" allowfullscreen="true" name="viddler"></embed></object><br /></div><div><br /></div><div>T. Padmanabhan is a renowned Physicist who has written <a href="http://www.amazon.com/Theoretical-Astrophysics-1-Astrophysical-Processes/dp/0521566320">excellent books on Theoretical Astrophysics</a>.</div>Abhay Karnatakihttp://www.blogger.com/profile/03735264276408589770noreply@blogger.com2tag:blogger.com,1999:blog-3507023850610911424.post-50422989196111044642009-07-22T06:10:00.000+05:302009-07-22T06:10:00.526+05:30Lectures by Prof. V. Balakrishnan<object width="425" height="344"><param name="movie" value="http://www.youtube.com/v/TcmGYe39XG0&hl=en&fs=1&color1=0x234900&color2=0x4e9e00"><param name="allowFullScreen" value="true"><param name="allowscriptaccess" value="always"><embed src="http://www.youtube.com/v/TcmGYe39XG0&hl=en&fs=1&color1=0x234900&color2=0x4e9e00" type="application/x-shockwave-flash" allowscriptaccess="always" allowfullscreen="true" width="425" height="344"></embed></object><br />Excellent lectures.Abhay Karnatakihttp://www.blogger.com/profile/03735264276408589770noreply@blogger.com0tag:blogger.com,1999:blog-3507023850610911424.post-92098677180219878142009-07-21T16:15:00.000+05:302009-07-21T23:35:38.674+05:30Forming monolayer filmsThe water contains loosely bound Hydrogen nuclei in bonding with the OH radical. The molecules can have afinity to water depending on their polarity, if a molecule can contribute a positive charge, it would bond very well with OH negative radical. If it has negative polarity, it will be repelled from OH radicals. So any typical molecule will have either a crowding of OH -ve radicals around it or it has H+ ions around it. The situation is special when it comes to bipolar molecules, and if they are sufficiently long, they will attract both OH- or H+ at their ends. If the molecules are long, then they have sufficient space to accommodate different radicals on both ends. Surfactant molecules look like these:-<img style="display:block; margin:0px auto 10px; text-align:center;cursor:pointer; cursor:hand;width: 320px; height: 182px;" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEjYTCBw-iYphRieIeJhrXZX-LT6ddqFWZ4QMjRGXAc5ftx0xgVnwGHrhQasVXbJoP1NifS_DbyWqF1adXLo6TKJWF2q7dhs_R_tBOfUFobCHSvjc76GpON8qQAUDH1NeVZRDJak64fnAoSA/s320/Surfactant.jpg" border="0" alt="" id="BLOGGER_PHOTO_ID_5360956327819260418" /><br /><div><br />They are long chain molecules with a "head" that is water-loving :- water philic. the tails are water phobic, and hence in the given surface interface between water and air, they tend to stand upright as shown. Just like when you dip a plate in water, some water clings on the surface of plate, a metal can be dipped into a surfactant solution, and it will come out with a layer of the surfactant molecules. However this needs to be done very slowly. Here is <a href="http://en.wikipedia.org/wiki/Langmuir-Blodgett_films">a good article</a> on this method of forming monolayers of one substance on another. Here are some <a href="http://www1.fkp.tu-darmstadt.de/stuehn/equipment/LB.html">good diagrams</a> of the process.</div><div style="text-align: center;"><br /></div>Abhay Karnatakihttp://www.blogger.com/profile/03735264276408589770noreply@blogger.com0tag:blogger.com,1999:blog-3507023850610911424.post-88991257098505018932009-07-15T13:30:00.000+05:302009-07-15T13:30:01.641+05:30Heartbeat of the SunOne of the greatest opportunities in a research Institute is to get to listen to great Scientists. <a href="http://www.astronomy.com/asy/default.aspx?c=a&id=5517">Here is the news article</a> describing how a team of scientists studying Sun is extracting the information of the internal activities of the Sun. <img style="display:block; margin:0px auto 10px; text-align:center;cursor:pointer; cursor:hand;width: 320px; height: 267px;" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEjtBMlxk44l4hyBz0c8JszHbW02t8ee3Zu-lLJGZr2Y4wRUFKWhEjbLJWum1yXm0-L2Zjlni2eA1UW57nUXPf6Y0DLLi79fIy22FkDLTLGrKOSoVeYxFP20MhCc81E4g5vBjpZx1EQSCxut/s320/soho_ripples_sun_900.jpg" border="0" alt="" id="BLOGGER_PHOTO_ID_5358323096873924162" /><div style="text-align: left;">The studies of Sun using Visible or any other electromagnetic radiation is limited to the photosphere. Only Neutrinos produced in the nuclear reactions at the core of the Sun carry information about the layers inside Sun, to us. In what amounts to finding needle in the hey, the scientists have discovered a subtle ripple in the overall movement of the solar surface. The technique is to get the Fourier transform of the Fourier transform, thus giving an indication to the patterns in the frequency spectrum! It is like finding the octaves in the music of piano, and detecting the presence of piano in a grand symphony. The waves originate at the core of Sun because of gravitational disturbances. Rafael A. Garcia, DSM/DAPNIA/Service d'Astrophysique, France explained this in a colloquium at our Indian Institute for Astrophysics.<br /></div>Abhay Karnatakihttp://www.blogger.com/profile/03735264276408589770noreply@blogger.com0tag:blogger.com,1999:blog-3507023850610911424.post-59899172505497385782009-07-14T13:57:00.000+05:302009-07-14T14:07:35.368+05:30Mysteries in Sound Phenomena<span class="Apple-tab-span" style="white-space:pre"> </span>One friend asked, why in the place that is an empty square covered at a sixth floor ceiling and surrounded by classrooms in a college, echos a lot? <div><span class="Apple-tab-span" style="white-space:pre"> </span>After some discussions, we came to a simple conclusion: they had used that place after college hours, when there is absolutely no-one in the college. During the day-time, when it is flooded with students, it doesn't echo at all! The absence of students here, is giving rise to a lack of any absorbing medium for the sound energy, and it finds it easy to bounce back and forth. This effect can be seen in any empty place, flat, hall, most famous being the hilltops, as the sound seems to come back from distant hills.</div><div><br /></div><div><span class="Apple-tab-span" style="white-space:pre"> </span>Our staircase has hollow pipes as hand railings. I was having fun striking the metal with my metal keys, and it would create quite a sound! I checked striking on different sized pipes, and the sound is so very different! When the metals being stroked the same, why did the sound differ?</div><div><span class="Apple-tab-span" style="white-space:pre"> </span>The energy of the stroke gives rise to an impulse of vibration in the solid of the pipe. This impulse is a superposition of a huge number of frequencies. These all frequencies get transmitted to the air within the pipe. Due to the size of the pipe, the back and forth oscillations are sustained only at the natural frequencies of that length and radius of the pipe. So the standing waves are dependent on the radius of the pipe, thus giving different sound in different sized pipes.<br /></div><div><br /></div><div><br /></div>Abhay Karnatakihttp://www.blogger.com/profile/03735264276408589770noreply@blogger.com0tag:blogger.com,1999:blog-3507023850610911424.post-79974861877101825212008-11-27T12:30:00.000+05:302009-07-14T20:38:22.748+05:30Physics of Flame<p>Deep Physics lies hidden in simple phenomena around. This week, let's see what a candle flame can teach us:</p> <p><a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEhqEdrErneKzu8HftCLmdyGHy-dZq3700EMxSC8e6dwYMh9EBNwzTnxtNPbzqr8F0ict-S-E0lhOB2eER1jzYMSBN7Z0bbDeCKQCTCFRRJ-5pSNvb8f4YIM4UKliqr4m6HbS55acygzssCj//"><img style="border-top-width: 0px; border-left-width: 0px; border-bottom-width: 0px; border-right-width: 0px" height="244" alt="21nov 009" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEi1rRZP-IC2vjAAjh5n-QHg21MqOAOf0v_6uIH1tQmNWSSvAkWBhRggayjiD_OscPljzNXRfEsrGpLWAqmeCl9qxPvwFyd5Mb37XAg6qmeN-N0LOSGYtQElD-T7ubHyox7MU22BktYh98Gw//" width="184" align="left" border="0" /></a> </p> <p>When I take photos of the candle flame through my <a href="http://www.kodak.com/eknec/PageQuerier.jhtml?pq-path=8049&pq-locale=en_US&_requestid=6734" target="_blank">Kodak Easy Share C533 camera</a>, I get different photos on different settings. This Kodak Digital camera is a simple point and shoot camera. Same candle showed up as follows in another picture:</p> <p><a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEhz9tYewlLHBjevETUfFyXBXKNfDdp6AMKyH4Y3XbkVt0n0HigG7xWdrapU994UshiMr7-knDUzmtHRyQyOh3eugKsTH2tJO7cjske2yGC4Ss1NeAGLxHTEr2Jb2OZL1OIa4Xevuh7NoHgt//"><img style="border-top-width: 0px; border-left-width: 0px; border-bottom-width: 0px; border-right-width: 0px" height="244" alt="21nov 010" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEgLR0iqzKG1BNx3-pQ6ORSbWOb600sJnpWIUrujzETisbqeBKjLVezGKML0QP75cTIq08Tm1ZW-lqRxuLXwaabtkiExDLPrkQDx7thKuLRV8WYy47sPiQgBt1bDQPiJmFfSp9_DQSF9HDEp//" width="215" align="right" border="0" /></a> </p> <p>Q.1: Compared to the first picture, why is there so much sideways glow in this picture?</p> <p> </p> <p> </p> <p> </p> <p>Q.2: Why is the shape of the candle flame like a tapering upwards always? </p> <p>Q.3: What would be the shape of candle flame, in place where there is no gravity?</p> <p>I took further close up photographs of candle flame with my <a href="http://shopping.rediff.com/shop/subcategory.jsp?cgrfnbr=518&shopByBrand=Kodak" target="_blank">Kodak Digital Camera</a>. Here is the picture:</p> <p><a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEhKjOz5paNYRMG5Sy2p4TG8QJpyZl_nBHITBt87sIQxFQsZX26xkvFTCVDz4lXrkXZNRFm5k2iJROHrB2bU7S_qTRqKFWk7mbtcuyCOuG6ftFNl0mXVLk4VnE5Y7YFGaiV9JsSedvJeUEtD//"><img style="border-top-width: 0px; border-left-width: 0px; border-bottom-width: 0px; border-right-width: 0px" height="244" alt="21nov 015" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEgDJLHwFN3mD-y69jxwxXnMzb-afudINPlPGvOUCJFHJGLBGpRss8jucMi9hW3LjjSrcb9RPUHAU4EpbmAAOGKAzH-HAaD66ypjDagJNje6OdxQC9q-9QVJl4Mo3Yn9HYpQ7Vu8Rpc38DQ7//" width="87" align="left" border="0" /></a> </p> <p>Q.4: Do you see the color distribution between blue and yellow? What gives rise to the two colors? What decides the position of these two colors in the flame?</p> <p> </p> <p> </p> <p><a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEgi3-nGnlu1j0asAdGDqLkUMp65m79kXO9AL_qAomKhNJoVsKJPdQeSJYdRQkioMjOxVvhyX6bXkAOfMBeR-Y2Jh9vTtXZuX3umlk_8JhXU2ONwNgz79eB_xWxn0wyD5KLmAit2w5r3cTqE//"></a> </p> <p> </p> <p>To verify whether its a feature only <a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEgi3-nGnlu1j0asAdGDqLkUMp65m79kXO9AL_qAomKhNJoVsKJPdQeSJYdRQkioMjOxVvhyX6bXkAOfMBeR-Y2Jh9vTtXZuX3umlk_8JhXU2ONwNgz79eB_xWxn0wyD5KLmAit2w5r3cTqE//"><img style="border-top-width: 0px; border-left-width: 0px; border-bottom-width: 0px; border-right-width: 0px" height="148" alt="21nov 020" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEg3ffzhUP_i8Kvt46Ahy2LTcYrMFKb-qsSAzgA2lBTPTlCkaPNqr9BwL1pUSdjn3xgv6ysOvq3JrDpO6bsRe1rbvVj6IrCtqTy0Kj_S0ieeVVkqGl_y363Ynna_Wo8xsHkDomoQP94cKdLQ//" width="244" align="right" border="0" /></a>of wax candle flame, I took photograph of a glowing matchstick: </p> <p>It also shows the similar features, indicating the same Physics governing.</p><p><br /></p><p><br /></p><p>Answers below[can you spot them? :) ] :-</p><p><span class="Apple-style-span" style="color: rgb(255, 255, 255);">Ans.1. the glow captured in the camera depends on the exposure setting. The molecules are exciting and de-exciting at a rapid rate. The de-excitation is very fast, 10^(-8)sec, but the excitation depends on the temperature in that region. In the second photo, wider region is captured, indicating larger exposure time.</span></p><p><span class="Apple-style-span" style="color: rgb(255, 255, 255);">Ans.2.Fluid dynamics of simple laminar flow... Its same to the flow of water when you open it at very slow speeds. This is flow below the Reynolds number. Above Reynolds number, the flow is chaotic, as can be seen in the case of smoke from an incense. </span></p><p><span class="Apple-style-span" style="color: rgb(255, 255, 255);">Ans.3.Sphere !? :) that's my guess... </span></p><p><span class="Apple-style-span" style="color: rgb(255, 255, 255);">Ans.4.higher temperatures give higher excitation and de-excitation, resulting in blue. Only two colors are seen corresponding to energy levels available. the position shows the temperature profile.</span></p>Abhay Karnatakihttp://www.blogger.com/profile/03735264276408589770noreply@blogger.com2tag:blogger.com,1999:blog-3507023850610911424.post-76104189505774584652008-11-26T14:30:00.000+05:302008-11-26T14:30:00.405+05:30Friction - Evil or God !<span style="color: rgb(102, 0, 204);font-size:130%;" > Everywhere you see, one is attempting to reduce Friction. E.g. the lubricating oils in ball bearings, door hinges. However, have you thought about what would happen if there was no Friction!<br />Without Friction, you can't even walk on the floor! That's what happens, in rain, if the floor is slippery, you tend to fall down. Why, because the Friction has got reduced. Its a strange thing that the force of Friction, which opposes every motion, is actually supporting the entire mechanism of motion!<br />Let's say you want to walk. Now suppose you were in Space, then unless someone gave you a push, you wouldn't move from where you are! So when you walk, what you do is you push back on the ground. The only way you can push something is when you have some grip over it. That's Friction. Without Friction, when you attempt to walk, you will actually roll over and fall!<br />When a wheel moves on the floor, three things can happen: It can slide like a sledge- this happens when your wheels are break locked and there is no rotation of wheel, or It can rotate without any translation, as it happens when a wheel is stuck in a ditch of mud, and any amount of acceleration only gives it rotation, no translation. Third thing which is expected, normal behaviour, is rotation and translation. This can happen only when there is adequate <span class="blsp-spelling-corrected" id="SPELLING_ERROR_0">Friction</span>.<br />What is Friction. On a microscopic level, the smooth looking surface is not a regular plane. There are hills and valleys at atomic level. Whenever two surfaces meet, they form temporary contacts, and molecules of one surface invade in hills and valleys of other surface. They interlock and push each other. So if a top surface is moving forward on a bottom surface, the bottom surface pushes the top one back, and the top surface pulls the bottom one forward.<br />This is easily seen in case of liquids. The analog of Friction is Viscocity. An Oil is more viscous than water and Honey is more viscous than Oil. In a mixer, when the blade rotates, it carries along with it the layer of liquid next to it, and that layer drags the next layer with it and so on, the subsequent liquids are set in motion. Had there been no Viscocity, you wouldn't be able to stir your coffee!<br /></span>Abhay Karnatakihttp://www.blogger.com/profile/03735264276408589770noreply@blogger.com0tag:blogger.com,1999:blog-3507023850610911424.post-78337405130507562402008-11-25T14:30:00.000+05:302008-11-25T14:30:00.946+05:30Career in Physics<div style="text-align: justify;"><span style="color: rgb(51, 51, 255); font-family: courier new; font-size: 130%;"> An enthusiastic reporter,</span><span style="color: rgb(51, 51, 255); font-size: 130%;"><span style="font-family: courier new;">V. Kumara Swamy</span></span><span style="color: rgb(51, 51, 255); font-family: courier new; font-size: 130%;"> from "The Telegraph", Calcutta took my interview through emails. <a href="http://telegraphindia.com/1080529/jsp/careergraph/story_9332845.jsp">Here</a> is the article he published.</span><span style="font-size: 130%;"><br /></span><span style="color: rgb(51, 102, 255); font-family: courier new; font-size: 130%;">My detailed interview is quoted below, as per his questions and my answers:-</span><span style="font-size: 130%;"><br /><br /></span><span style="color: rgb(51, 102, 255); font-family: courier new; font-size: 130%;">1) Please mention a bit about your ambition as a child, your interest in</span><span style="color: rgb(51, 102, 255); font-size: 130%;"><br /></span><span style="color: rgb(51, 102, 255); font-family: courier new; font-size: 130%;">astrophysics and about your achievements so far.</span> </div><div style="color: rgb(102, 0, 204); text-align: justify; font-family: courier new;"><span style="font-size: 130%;"> </span></div><div style="text-align: justify;"> </div><div style="color: rgb(102, 0, 204); text-align: justify; font-family: courier new;"><span style="font-size: 130%;">As a child I was always a curious observer of everything around me. I read the book by Resnik and Halliday and quickly realised that Physics is the subject that brings me closer to my understanding of the nature around me. I was also blessed to have good teachers who could answer my queries based on the reading of Berkeley Physics course and Feynman's Lectures. With this foundation, there has been an undying zest for Physics and I pursue Astrophysics as an Application of Physics to stars and space - an aspect of nature that draws attention of one and all.</span></div><div style="color: rgb(102, 0, 204); text-align: justify; font-family: courier new;" class="Ih2E3d"> <span style="color: rgb(51, 51, 255); font-size: 130%;"><br /></span><span style="color: rgb(51, 51, 255); font-size: 130%;">2) What are some of the qualities are needed to be a successful researcher in physics?</span> <span style="font-size: 130%;"> </span> </div><div style="color: rgb(102, 0, 204); text-align: justify; font-family: courier new;"><span style="font-size: 130%;">Its important to have sound background in Mathematics. Mathematics is the language of Physics. Its absolutely necessary to have a good problem solving practise, Physics is a science where you isolate a particular situation in Nature, and study it in detail. Though Mathematics is a great tool, one also needs to remember to constantly relate the formulae and equations to what is happening in reality, in the physical phenomena you are studying. For this reason, students should never neglect any experimental work, and should take every opportunity to do more experiments.</span></div><div style="text-align: justify;"> </div><div style="color: rgb(102, 0, 204); text-align: justify; font-family: courier new;"><span style="font-size: 130%;">Research in Science needs an attitude to find many different ways and also a zeel not to give up at any stage whatsoever. I also feel that young students should give more preference to learning the methods of science, rather than some particular topic, in selection of area of research. Once these methods are learnt, they could be applied to any topic.</span></div><div style="color: rgb(102, 0, 204); text-align: justify; font-family: courier new;" class="Ih2E3d"> <span style="font-size: 130%;"><br /><span style="color: rgb(51, 51, 255);">3a) How has the role of physicists evolved over the years.</span> </span> </div><div style="color: rgb(102, 0, 204); text-align: justify; font-family: courier new;"><span style="font-size: 130%;">This question can be answered only by Senior Physicists.</span></div><div style="color: rgb(102, 0, 204); text-align: justify; font-family: courier new;" class="Ih2E3d"> <span style="font-size: 130%;"><br /></span><span style="font-size: 130%;"><span style="color: rgb(51, 51, 255);">3b)They dabble in various fields depending on their interest, what do think of your own field? </span><br /></span><span style="font-size: 130%;"> </span> </div><div style="color: rgb(102, 0, 204); text-align: justify; font-family: courier new;"><span style="font-size: 130%;">Astrophysics brings to you closer to the vastness of Nature. Here thousands of years are a very small time, and one realizes that one's own body, the houses, cities and such things which we give so much importance, are in reality very minuscule compared to the universe. When you are looking in sky, you are looking in past, because that ray of light has left that star several years ago. So what you see is a collage of past locations and phenomena in different directions.</span></div><div style="text-align: justify;"> </div><div style="color: rgb(102, 0, 204); text-align: justify; font-family: courier new;"><span style="font-size: 130%;">Over the last century, the advances in Satellite Technology, have given a boon to study of Astrophysics. We are able to probe in farther parts of universe, by collecting more feeble light from the space based telescopes. We are also able to achieve excellent resolution thanks to the CCD Cameras. And only because of fast computers and huge memory spaces, we are able to store and process gigantic data of astronomical images. Most of the data is freely available even to a graduate student, thanks to internet.</span></div><div style="text-align: justify;"> </div><div style="color: rgb(102, 0, 204); text-align: justify; font-family: courier new;"><span style="font-size: 130%;">I am studying properties of Interstellar Dust, the dust between us and the stars. Its of micron size and is sparsely spaced, however, because of large distances in space, its cumulative effects significantly changed our view of stars and their surroundings.</span></div><div style="color: rgb(102, 0, 204); text-align: justify; font-family: courier new;" class="Ih2E3d"> <span style="color: rgb(51, 51, 255); font-size: 130%;">4) Can you please say a few words about the career progression in anorganisation like the one where you doing your research now. Do you think astrophysics is one field that opens up more doors for research at a international level than any other? In other words, world can be your</span><span style="color: rgb(51, 51, 255); font-size: 130%;"> playground?</span> <span style="font-size: 130%;"> </span> </div><div style="color: rgb(102, 0, 204); text-align: justify; font-family: courier new;"><span style="font-size: 130%;">I joined the Joint Astronomy Program at IISc, after my MSc Physics in IITB. After 1 year of Research Training Program in special topics of Astrophysics I chose to work in IIA. I had a number of attempts till I started off on my current research topic, and I was awarded senior research scholarship after completion of my comprehensive exam. I visited Max Planck Institute for Astronomy in Heidelberg, Germany, for a one week Summer School related to my research area, and two week mini-project for developing collaborations. I am very glad that my Institute as well as the German Institute gave adequate financial support for the visit.</span></div><div style="text-align: justify;"> </div><div style="color: rgb(102, 0, 204); text-align: justify; font-family: courier new;"><span style="font-size: 130%;">I feel that in all branches of science, there are excellent opportunities, and they await the explorer.</span></div><div style="color: rgb(102, 0, 204); text-align: justify; font-family: courier new;" class="Ih2E3d"><span style="font-size: 130%;"><br /><span style="color: rgb(51, 51, 255);">5) Can you also please list some of the leading institutes in the country that you think give great opportunities for youngsters?</span></span> <span style="font-size: 130%;"> </span> </div><div style="color: rgb(102, 0, 204); text-align: justify; font-family: courier new;"><span style="font-size: 130%;">There are atleast 25 independent Institutes in the country. All have their own speciality. All IIT Physics Departments welcome PhD research. Many University Physics departments are also doing good research, subject to availibility of funds.</span></div><div style="text-align: justify;"> </div><div style="color: rgb(102, 0, 204); text-align: justify; font-family: courier new;"><span style="font-size: 130%;">With the recent hike in scholarships for research scholars, I see research as a very much valid and bright career option. It is stable, exciting, innovative and fulfilling. It is not so much important as to Where you work, but that how you work, and how much you work.</span></div><div style="color: rgb(102, 0, 204); text-align: justify; font-family: courier new;" class="Ih2E3d"> <span style="font-size: 130%;"><br /><span style="color: rgb(51, 51, 255);">6) Please mention a bit about your own background </span><br /></span><span style="font-size: 130%;"><br /></span> <span style="font-size: 130%;"> </span> </div><div style="color: rgb(102, 0, 204); text-align: justify; font-family: courier new;"><span style="font-size: 130%;">I did BSc Physics from Fergusson college Pune, MSc Physics from IITB and I am currently Senior Research Scholar in IIA, as a part of Joint Astronomy Program of IISc.</span></div>Abhay Karnatakihttp://www.blogger.com/profile/03735264276408589770noreply@blogger.com0tag:blogger.com,1999:blog-3507023850610911424.post-13374853305715003392008-11-25T13:10:00.001+05:302009-01-30T01:18:56.641+05:30Current & Voltage<a href="http://thehumanmind.blogspot.com/">Prasanna</a> sent an interesting Question. This is how Science progresses, with curiousity aroused by practical needs. Here is the question:<p>~~~~~~</p><p>Hi </p> <p>The following <strong>Amaron</strong> 12 Volt lead acid battery. </p> <p><a href="http://lh5.ggpht.com/_rNCrhUs14lc/SSuudbOEDoI/AAAAAAAAAC8/HJHhlRAMyak/s1600-h/Amaron%5B3%5D.jpg"><img title="Amaron" style="border-right: 0px; border-top: 0px; display: inline; border-left: 0px; border-bottom: 0px" height="154" alt="Amaron" src="http://lh5.ggpht.com/_rNCrhUs14lc/SSuuelHzruI/AAAAAAAAADA/Ncw6K7Dcd2g/Amaron_thumb%5B1%5D.jpg?imgmax=800" width="127" border="0" /></a> </p> <p>It ran out of charge. I had with me 8 1.5 volt <strong>Duracell</strong> batteries as the one below. </p> <p> </p> <p><a href="http://lh5.ggpht.com/_rNCrhUs14lc/SSur3Ml9aAI/AAAAAAAAADE/vacBApwF0a4/s1600-h/250px-Duracell_AA.jpg"><img title="250px-Duracell_AA" style="border-right: 0px; border-top: 0px; display: inline; border-left: 0px; border-bottom: 0px" height="118" alt="250px-Duracell_AA" src="http://lh5.ggpht.com/_rNCrhUs14lc/SSur37T2DQI/AAAAAAAAADI/7z0mK0YSR_M/250px-Duracell_AA_thumb.jpg?imgmax=800" width="109" border="0" /></a> </p> <p>Can I connect 8 of them in<strong> series</strong>, total voltage will be 12 volts and use them instead of the original Lead acid battery.</p><p>~~~~~~</p><p>Can you explain? Write your answers in Comments.</p><p>Will come up with an explanation soon.<span class="Apple-tab-span" style="white-space:pre"> </span></p><p><br /></p>Unknownnoreply@blogger.com0tag:blogger.com,1999:blog-3507023850610911424.post-91822094714737476722008-11-24T14:30:00.000+05:302008-11-24T14:30:01.088+05:30Physics Studies, exams and Interviews<p><span style="color: rgb(102, 0, 204); font-size: 130%;"> I receive many querries by students pursuing graduation and post-graduation in Physics, and following are summarised guidelines for them.<br /> Books to read during BSc Physics:-<br /></span></p><ol style="color: rgb(102, 0, 204);"><li><span style="font-size: 130%;">Resnik Halliday, Fundamentals of Physics</span></li><li><span style="font-size: 130%;"> Berkeley Physics Course, 5 Volumes</span></li><li><span style="font-size: 130%;">Feynman Lectues on Physics<br /></span></li><li><span style="font-size: 130%;">Concepts of Modern Physics:- Arthur Beiser<br /></span></li></ol><span style="color: rgb(102, 0, 204); font-size: 130%;"> For problem solving :- "Physics by Example" - Rees<br /><br /> Books to be read during MSc Physics:- Follow your Professors..! Don't get too lost in the treatises!<br /><br /> How to prepare for exams, and how to face the entrance interviews for MSc or PhD:-<br /></span><ol style="color: rgb(102, 0, 204);"><li><span style="font-size: 130%;">Sit back and revise your BSc/MSc syllabus.</span></li><li><span style="font-size: 130%;">Close the books and write down all the Physics you know, from formulae to ideas, concepts.</span></li><li><span style="font-size: 130%;">While you are doing step 2, you will recall certain things that you know, but don't remember exactly. Open the books and fill in such gaps.</span></li><li><span style="font-size: 130%;">Repeat 2 & 3 until you have good list of ideas in Physics. Now, THIS is Your Physics. What you read till then, was just what others knew. THIS much Physics you know. Its yours, congratulate yourself! One night before the exam you need to revise only this.<br /></span></li><li><span style="font-size: 130%;">Give as many entrance exams as possible. In any one exam, lets say NET, you don't do well, then come back home and figure out what you didn't do well. e.g you may not have understood Statistical Mechanics well. Then study that before the next exam, and give the next one with confidence.</span></li><li><span style="font-size: 130%;">Don't gamble, be careful of negative marking.</span></li><li><span style="font-size: 130%;">Do YES!+ program:- www.yesplus.org . Its important not to have just bookish knowledge, but also to have the ability to apply it well, in a relaxed and focussed state of mind, during exam as well as when you face the interview. This is one of the many important benefits you get out of YES!+ workshop.</span></li></ol><span style="color: rgb(102, 0, 204); font-size: 130%;"> Projects:- Its a good idea to engage yourself in summer and winter projects in various research Institutes. Alternate your projects in terms of theoretical, experimental or simulation based.</span>Abhay Karnatakihttp://www.blogger.com/profile/03735264276408589770noreply@blogger.com0tag:blogger.com,1999:blog-3507023850610911424.post-7590195110469675322008-11-24T12:23:00.000+05:302008-11-24T12:23:00.898+05:30Stability of Vehicles<p><span style="font-size:130%;"><span style="color: rgb(204, 102, 0);">You think you do a big job when you are balancing a 2 wheeler while driving it? You hardly do anything! A major role is played by rotating wheel. To see why, just imagine yourself balancing the 2 wheeler that is stationary, for as long as you generally drive! Balancing a stationary 2 wheeler is tough. Do it with cycle, you will have to do some good amount of acrobatics!<br /><br />Why would a rotating wheel be more stable? What is fall of a bike? Its essentially tilt that doesn't reverse, and continues till it touches the ground. A rotating wheel, when tilted, actually turns - that's how you take turns - rather than falling by side.<br /><br />A complex mechanics equation and formulae and vectors show why this is necessary. To get a simple idea, think of it this way:- a sledge moving on ice has a tendency to move in the same direction. If you apply sideways force, the direction of motion will be very slightly changed to that side, while it continues to move in more or less same direction.<br /><br />In case of rotating wheel, it has a tendency to continue to rotate around the same axis - say the axle of wheeel - unless you tilt it. When it is falling, it just shifts the direction of axle - like the small direction change in sledge motion - and continues to rotate around this new axis.<br /><br />When a wheel tends to fall, instead of falling sideways and continuing to move in the same direction, it will change the direction of travel, and spiral towards fall. This is easily seen by anyone playing with a cycle wheel and pushing it by hitting at back. The wheel will roll on, and depending on which side it bends, it will spiral in that side and fall. What it doesn't do, is to go in straight direction and fall sideways!</span><br /><span style="color: rgb(204, 102, 0);"></span><br /><span style="color: rgb(204, 102, 0);">Spinning top also shows the similar stability. It can balance itself on a needle end. It will keep balancing and rotating and once friction eats up the energy, it falls down spiralling. </span><br /><span style="color: rgb(204, 102, 0);">It also shows another behaviour, when, after throwing it may not have landed vertically, and slight tilt causes its rotation axis to go in circle around the vertical axis. Notice that even though its tilted, because its rotating, it goes in circles, rather than falling down. A stationary top will simply fall down. This is called as Precession.</span> </span><br /><span style="font-size:130%;"></span><br /><span style="font-size:130%;"><span style="color: rgb(204, 102, 0);">The larger the speed, more the stability. Of course, more speed invites other dangers.Also, this means that falling sideways is much easier on smaller speeds and sharper curves. So be careful!</span> </span></p>Abhay Karnatakihttp://www.blogger.com/profile/03735264276408589770noreply@blogger.com0tag:blogger.com,1999:blog-3507023850610911424.post-324288133475989862008-11-22T14:30:00.000+05:302008-11-24T03:56:45.000+05:30Making Physics Popular at college level<p><span style="color: rgb(51, 51, 255);font-size:130%;" > Making Physics Popular at college level<br /><span style="font-size:85%;">Abhay Karnataki,MSc Physics,IIT Bombay,2nd Year student,February 19, 2003</span></span><br /><span style="color: rgb(51, 51, 255);font-size:130%;" ><span style="font-size:85%;"><br /></span>... the power of instruction is seldom of much efficacy, except in those happy dispositions where it is almost superuous."<br />This apt remark is a telling comment on the state of instruction and remains as true today as when it was first quoted by Edward Gibbon. There is a natural inclination in every child, starting from vastness of astronomical objects, as to know how this world works, what laws govern the nature around us. Since this is the subject matter of Physics, there is so much a need to us to recognize and implement the best possible and natural methodology of imparting physics. Conventional education bombards the students with a gamut of equations which leaves the student grasping for breath. What is needed is a literature that complements this maths with a lucid physical description of phenomena, so as to bring out its natural properties, and sustain interest and motivation of students.<br />To this end the books play a very important roll, since the students can spend most of their time with these. Following monumental books form the best foundation in Physics one can have:<br />Resnick and Halliday.<br />Berkeley Physics Course, 5 Volumes.<br />Feynman lecture series, 3 Volumes.<br />Surely there would be some other combinations, but these are time tested.<br /><strong>Resnick and Halliday</strong> develops a curiosity about the methods of Physics and gives a visa to the generalizations of theories, gives glimpses of frontiers, relates the concepts to the real world surrounding us through numerous daily life examples.<br /><strong>Berkeley course</strong> endures the student with a rigorous and complete background of future studies. It gives precise limitations and scope of the theory </span><span style="color: rgb(51, 51, 255);font-size:130%;" >being presented. The problems are very interesting and give an insight in understanding almost all essential basics of physics. Both of the above give excellent order of magnitude calculations, something which is very important to give a feel of the subject.<br /><strong>Feynman lectures</strong> are universally acknowledged as being the best lecture series we ever had on Physics. With his endearing charm and uncharacteristically disarming style of an engaging Physics Teacher, Feynman covers most of Physics in a manner that could be understood by a dedicated beginner. However, no Physics course is complete without the tutorials and recitation sessions, in which the students are grilled in the concepts told. This is where above books and educators come in. They are in a position to complement the course by giving due emphasis to the appropriate nuances of the subject and clarify the perspectives.<br />Apart from the books, the next important thing that brings students close to Physics is the experiments. I strongly feel that there is a need of setting up of the experiments rather than doing just observations of already setup experiments. The students must learn how to play with the apparatus, rather than just number crunching. Certainly, the current group of experiments should be retained, but alongside the students should be encouraged to set up some, possibly without grading them on the basis of those setups.<br />Following areas are very easy to explore:<br /> <strong>Electronics</strong>: let them make some simple liging circuits! ! Even without understanding how a diode works... BSc students could be encouraged to setting up some Power Supplies, Digital counters. And at the final year some experiments that might involve microprocessors.<br /> <strong>Simple mechanical experiments</strong>: using gears, batteries, motors, levers, bearings... the aim of these experiments need not be something directly useful, but something which conveys the essential Physics behind actual real life working systems. Third Volume of Berkeley Physics Course, Waves, provides an excellent set of home experiments.<br /> <strong>Computer programming</strong>: Computers should be brought into the work experience of students at an earlier stage. Without bothering too much about the details of programming languages, they should be given a first hand experience of the softwares available. Internet education plays an important role in fast and up to date knowledge of the subject. It has broadened the capacity of the individual to access the vast amount of data. Following activities would be of interest:<br />-function plotting using softwares.<br />-plotting trajectories of charged particles in various combinations of E and B fields.<br />-generation of fractals.<br />-viewing 3 D images of solids.<br /><strong>Study of classic experiments</strong>: some of the classic experiments like Millikan's oil drop experiment, J.J. Thomson's e/m measurement, Michelson's interferometer which are possibly available to undergraduates, should be studied in very much greater detail. The constraints of time should be uplifted from the students, so should be the burdens of being evaluated for doing the experiment, and its completion. For, the spirit of scientific adventure ( so essential for the joy of doing Physics) can be experienced only in a liberal academic atmosphere free from such mundane constraints.<br />The courses should be designed so that there is maximum correlation of theory taught and experiments performed. The idea should not necessarily be to cover the entire syllabus, but to convey the essential physics in the subject and to inspire the student by conveying the personal excitement of learning the subject. An inspired student will learn much more on his/ her own, than what can be taught in the class rooms. A certain care about delicate balance of students' psychological, emotional inclinations is to be taken by the teachers. I believe that there are no bad students, there are only fast and slow students. Some people grasp some things fast and some do it slowly. There should be both, freedom and care, on the part of the teacher. Teachers can give freedom to self progress and go much ahead in the subject to the fast students, and they have to pay more attention to those who grasp it slowly.Only a good work culture in the class can impel simultaneous growth of all. To help this grow, assignments can be given by clubbing fast and slow students, where slow students present the conclusions of the work. Such group discussions and seminars of students would be very helpful.<br />"Problems for toffies" - this is something which works very well! The idea is to have healthy competition with excitement of prize.<br />Another activity that can be encouraged is reading of simple, early original papers. These are the landmark papers, which mark the history of science, and milestones in scientific progress. Since the facts discovered then, are now firmly established and have became accessible to the novice, the concepts in the papers are easily understandable. On the other hand, the joy of discovery presented in the original papers is unmatched by any later substitute on the same topic.<br />Often we can celebrate the birth anniversery of a Physicist, with a series of discussions of his/her best works. A wonderful course on Classical Physics through work of Sir G. I. Taylor is being offered in MIT and Harvard. It is an excellent example demonstrating how a single scientist's work can be so beneficial and illustrating with a wide variety of research areas.<br />I thank all my teachers who guided me and introduced to the fascinating world of science and in particular Physics.<br />Let's make learning Physics a celebration.</span><br /><span style="color: rgb(51, 51, 255);font-size:130%;" ></span><br /><span style="color: rgb(51, 51, 255);font-size:130%;" ></span><br /><span style="color: rgb(51, 51, 255);font-size:130%;" >PS. This article won first prize in a Science essay competition. It was briefly edited by my then friend and now scientist, Ashutosh Jogalekar. You can visit his <a href="http://ashujo.blogspot.com/">blog</a> .</span></p>Abhay Karnatakihttp://www.blogger.com/profile/03735264276408589770noreply@blogger.com2tag:blogger.com,1999:blog-3507023850610911424.post-61097982141258360162008-11-22T10:51:00.000+05:302008-11-22T10:51:00.506+05:30Berkeley Physics Course now available<span style="color: rgb(102, 0, 204); font-size: 130%;">I love Tata McGraw Hill Publications... they bring out the best of the books in the world to Asian students in an affordable price!<br />Now they have revived the Classic Physics textbooks:- the Berkeley Physics Course:<br /><br />Vol 1 <a href="http://www.tatamcgrawhill.com/html/titleDetail.jsp?isbn=9780070667280.html">Mechanics</a><br />Vol 2 <a href="http://www.tatamcgrawhill.com/html/titleDetail.jsp?isbn=9780070667297.html">Electricity and Magnetism</a><br />Vol 3 <a href="http://www.tatamcgrawhill.com/html/titleDetail.jsp?isbn=9780070667303.html">Waves</a><br />Vol 4 <a href="http://www.tatamcgrawhill.com/html/titleDetail.jsp?isbn=9780070667310.html">Quantum Physics</a><br />Vol 5 <a href="http://www.tatamcgrawhill.com/html/titleDetail.jsp?isbn=9780070667327.html">Statistical Physics</a><br /><br />These books will tell you the Graduate Physics in the most precise form! They give you the scope and limitations of the theory presented. The third volume Waves is filled with ample illustrations and experiments. The exercises given will sharpen your skills.<br />Second volume on Electricity and Magnetism, the Nobel Laureate Purcell has described in a diagramatic and a very illustrative manner, how accelerated motion of a charge gives rise to electromangetic radiation...<br />Learn Physics from the Best!</span>Abhay Karnatakihttp://www.blogger.com/profile/03735264276408589770noreply@blogger.com0tag:blogger.com,1999:blog-3507023850610911424.post-54354787513108711452008-11-20T14:30:00.000+05:302008-11-20T14:30:00.711+05:30Skyview<a onblur="try {parent.deselectBloggerImageGracefully();} catch(e) {}" href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEirmSgy4PkWH29X5XK45jxAa0O_lHEXQ8ZWse6TIvou3er6uZ28hBtxjxyOywYupSLo18CAgSYBnrV6ngz_7RY9XDO_UkIuEgnVpfDh88WFwqipyApIWN1q-cFro6I2OXQvcjAnsm1EaMn7/s1600-h/fuv2113.gif"><img style="margin: 0px auto 10px; display: block; text-align: center; cursor: pointer;" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEirmSgy4PkWH29X5XK45jxAa0O_lHEXQ8ZWse6TIvou3er6uZ28hBtxjxyOywYupSLo18CAgSYBnrV6ngz_7RY9XDO_UkIuEgnVpfDh88WFwqipyApIWN1q-cFro6I2OXQvcjAnsm1EaMn7/s400/fuv2113.gif" alt="" id="BLOGGER_PHOTO_ID_5221089338062438306" border="0" /></a><br /><span style="color: rgb(204, 51, 204); font-size: 130%;"><br />True to my religion, Physics, I thought an article on Astronomy and Astrophysics is a must! What you see above is how the sky looks like in a less than a degree field of view in a region of Large Magellanic Cloud, our next door galaxy. The image is taken by Ultraviolet Imaging Telescope.<br />Isn't it unbelievable that in that small part of the sky there are so many stars! And its so very beautiful. As if there is a Diwali in that galaxy, and all those are houses with diyas lit up on their doors.<br />And another amazing thing about sky-view is that, when you look in different directions, you are actually seeing light that originated in different times from those stars, so there is a temporal information encoded in the picture! What you see is a spatial collage of different pasts in various directions.. </span>Abhay Karnatakihttp://www.blogger.com/profile/03735264276408589770noreply@blogger.com0tag:blogger.com,1999:blog-3507023850610911424.post-83508353811147461572008-11-19T14:30:00.000+05:302008-11-19T14:30:00.148+05:30night sky of the World<h3 class="post-title"> <a href="http://2hitchhikers.blogspot.com/2008/07/night-sky-of-world.html">night sky of the World</a> </h3> <p><span style="color: rgb(204, 51, 204);font-size:130%;" ><a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEjkk0HQAjCjcnrTXkECnQKZ6pLT7sttVHnZVaNqja7ONnG_I6C1ICm98zx_bV8xhMDirDr6PzMz_mfmHwm1G-f7PpkihLRv6cCOr_CW7XlxGCV8XrYatYoMcYFgiNnnaEXLjXXKfmfasuhU/s1600-h/night-brightness.gif"><img id="BLOGGER_PHOTO_ID_5224640364945036178" style="margin: 0px auto 10px; display: block; text-align: center;" alt="" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEjkk0HQAjCjcnrTXkECnQKZ6pLT7sttVHnZVaNqja7ONnG_I6C1ICm98zx_bV8xhMDirDr6PzMz_mfmHwm1G-f7PpkihLRv6cCOr_CW7XlxGCV8XrYatYoMcYFgiNnnaEXLjXXKfmfasuhU/s400/night-brightness.gif" border="0" /></a> Above picture shows how much city light is emitted in different parts of the world at night... recorded by some satellites. More info is here:- <a href="http://www.inquinamentoluminoso.it/worldatlas/pages/index.htm">night sky in the World</a>. interesting, isn't it!</span></p>Abhay Karnatakihttp://www.blogger.com/profile/03735264276408589770noreply@blogger.com0tag:blogger.com,1999:blog-3507023850610911424.post-82177713644506994562008-11-18T14:30:00.000+05:302008-11-18T14:30:01.468+05:30Nurture the Talent<h3 class="post-title"> <a href="http://2hitchhikers.blogspot.com/2008/08/nurture-talent.html">Nurture the talent</a> </h3> <a onblur="try {parent.deselectBloggerImageGracefully();} catch(e) {}" href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEgE1np7_O0NFd5vGfcGJPXSRiJWPCX9odV4tsMKF924Hf6v7rEl55nzczytfIWPNuucqH4jYX7NP4LfczcZpNzROuBP1_qJLbz1rmqmMdtVuIVw4Ll8s7SoDCieLXk-cwH8-PUNu3iwpAiD/s1600-h/cnr.gif"><img style="margin: 0px auto 10px; display: block; text-align: center; cursor: pointer;" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEgE1np7_O0NFd5vGfcGJPXSRiJWPCX9odV4tsMKF924Hf6v7rEl55nzczytfIWPNuucqH4jYX7NP4LfczcZpNzROuBP1_qJLbz1rmqmMdtVuIVw4Ll8s7SoDCieLXk-cwH8-PUNu3iwpAiD/s400/cnr.gif" alt="" id="BLOGGER_PHOTO_ID_5233168769166571602" border="0" /></a><span style="font-size: 130%;"><span style="color: rgb(204, 51, 204);">Its our Founder's day in my Indian Institute of Astrophysics today.</span> <span style="color: rgb(204, 51, 204);">We had a public lecture by Prof. C N R Rao, the eminent Scientist. Check more about his excellent research career, the extraordinary awards he has received and other information on his </span><a style="color: rgb(204, 51, 204);" href="http://www.jncasr.ac.in/cnrrao/">website</a><span style="color: rgb(204, 51, 204);">. The Auditorium was housefull and we had standing audience!</span><br /><br /><span style="color: rgb(204, 51, 204);">In a fantastic talk on "Science in India, a personal recollection", he spoke with all humor the ups and downs in research. His 50 years of experience in building research institutes, guiding students, was evident. </span> <span style="color: rgb(204, 51, 204);">He stressed the need on nurturing and encouraging talent in all possible ways for study of Science. He said the funds are now available, in contrast to 40-50 years ago, and we need to give quality results. He asked us, the researchers, to abandon mediocracy and choose the most interesting, important, problems for research. He said, we need those "nutty fellows", the bright young minds, who don't care what other people think, and get themselves immersed in study. He said, we can't discipline scientist like in military, but we need to bring the best of the young minds by taking them beyond their comfortable capcity.<br /><br />He cited how, even with limited facilities and funds, even in old days there used to be some scientists who would do their best work, and it would meet the international standards. Talking about our Founder, he said, Vainu Bapu was a very methodical and eloquent speaker, and always insisted on excellence.<br />More about my Institute, check on the <a href="http://www.iiap.res.in/">website</a>.<br />Tomorrow also we have a nice talk on "My experiences in space". A talk by an Astronaut! Come and book your space before time, as I know the auditorium is likely to be housefull as today!</span></span>Abhay Karnatakihttp://www.blogger.com/profile/03735264276408589770noreply@blogger.com0tag:blogger.com,1999:blog-3507023850610911424.post-20181699514760696102008-11-18T10:36:00.000+05:302008-11-18T10:39:04.021+05:30One hour day and Half hour night<span style="font-size: 130%;"><span style="color: rgb(204, 51, 204);">I always feel grateful for being in a Research Institute. Its this sheer opportunity to meet some of the most brilliant people on the planet. Today we had a talk by the Astronaut Claude Nicollier, "My experience in Space".</span><a style="color: rgb(204, 51, 204);" onblur="try {parent.deselectBloggerImageGracefully();} catch(e) {}" href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEgooGEJjIIpnnH4vUaQRNl9IKm372rb0vlXmq6SP4m7dahRsDALNuQc2CQ-K0h2zgA-U8MR80hboR91u8iTF_uFaXp-zDfc0BKRDIe-TU8Wmz8p0iJ2OmSmVZhXRCTCfAiBDeE1wCPfAx79/s1600-h/589px-Claude_Nicollier.jpg"><img style="margin: 0px auto 10px; display: block; text-align: center; cursor: pointer;" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEgooGEJjIIpnnH4vUaQRNl9IKm372rb0vlXmq6SP4m7dahRsDALNuQc2CQ-K0h2zgA-U8MR80hboR91u8iTF_uFaXp-zDfc0BKRDIe-TU8Wmz8p0iJ2OmSmVZhXRCTCfAiBDeE1wCPfAx79/s400/589px-Claude_Nicollier.jpg" alt="" id="BLOGGER_PHOTO_ID_5233554366633024690" border="0" /></a><span style="color: rgb(204, 51, 204);">He showed some amazing pictures of the earth from space, it was simply fantastic to see the entire Himalayas in one picture. Also, the distribution of river Ganga where it meets the ocean.</span><br /><a style="color: rgb(204, 51, 204);" onblur="try {parent.deselectBloggerImageGracefully();} catch(e) {}" href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEh2juGLKaWXaqUSB_IBJzfMyGxhQYUg2I1a97VrR0TwIMLVhWSnxLQGftS5kloTjI6NNzu9SdPsdrO_Xe3DD2zBLxq74PXeB8YJznpJZVcQD-2cXvkxEvo18GtWKbljTAyuFilYksCb3Sid/s1600-h/Himalayas_and__India_-_Ganges.jpg"><img style="margin: 0px auto 10px; display: block; text-align: center; cursor: pointer;" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEh2juGLKaWXaqUSB_IBJzfMyGxhQYUg2I1a97VrR0TwIMLVhWSnxLQGftS5kloTjI6NNzu9SdPsdrO_Xe3DD2zBLxq74PXeB8YJznpJZVcQD-2cXvkxEvo18GtWKbljTAyuFilYksCb3Sid/s400/Himalayas_and__India_-_Ganges.jpg" alt="" id="BLOGGER_PHOTO_ID_5233562636613680866" border="0" /></a><span style="color: rgb(204, 51, 204);">It was also an absolutely stunning picture to see that on top of one of the desserts, the cloud coverage is exactly on top of the sea, and it ends on the coastline.</span><br /><br /><span style="color: rgb(204, 51, 204);">Absolutely passionate about his work, he mentioned how he had undergone rigorous training in water chambers. Their first mission was repair of the Hubble Space Telescope. Imagine changing parts of a huge (2 meter diameter) telescope in space! In those water chambers, they make exact replica, with high fidelity modelling, of the space telescope. In space you need to stabilize your body, and move very slowly. They practised it for months before the mission, in the water chambers. Exact and detailed planning, even practise of handling unexpected failures and problems.</span><br /><br /><span style="color: rgb(204, 51, 204);">When you are in space, you are in a very low air pressure surrounding. Say 1/3rd of that on earth. So the nitrogen tends to get into the blood. There are Air Chambers, where you increase the air pressure to normal ones on the earth, and rejuvenate yourself. Claustrophobia is the fear of enclosed spaces. If you have it, then these small Air chambers are not meant for you! Also the Astronaut's suit can be very cumbersome to get into and carry along.</span><br /><br /><span style="color: rgb(204, 51, 204);">You can see </span><a style="color: rgb(204, 51, 204);" href="http://www.spacefacts.de/graph/drawing/large/english/sts-61_hubble.htm">here</a><span style="color: rgb(204, 51, 204);"> a photo of a pair of astronauts repairing the Hubble Space Telescope. Notice that one astronaut has firmly grounded his feet on the robot arm of the space ship,(you don't see the spaceship, the arm is the white rod like thing in the photo), and other Astronaut is freely floating. Whenever the Astronauts are doing such work, doing space walk, they are attached to the space-craft by a thread: they are </span><a style="color: rgb(204, 51, 204);" href="http://en.wikipedia.org/wiki/Tethered_Satellite_System">tethered</a><span style="color: rgb(204, 51, 204);">. This is to ensure that they don't just get lost in space by mistake! As he jokingly said, if an astronaut or a repair tool is lost, it becomes a useless satellite to Earth! So all the repair tools and parts are also tethered to the spaceship.</span><br /><br /><span style="color: rgb(204, 51, 204);">As you are orbiting, you have sunrise and sunset more often! You get 1 hour of a day and 1/2 hour of a night! Of course, you don't go to sleep in that night when you are in shadow of the earth. So you need to get used to this kind of bright and dark timings. Before the Earth becomes totally dark, and Sun goes behind it, you can see a beautiful cresent of the Earth! The moon also rises and sets quite fast. The sky is absolutely dark, and you can see Sun also as just another, closer, brighter and bigger star. </span><br /><br /><span style="color: rgb(204, 51, 204);">On Earth, our body has mechanisms to push lot of blood supply to the head. So much supply is not needed when you are in space. Lot of body fluid imbalance and loss of orientation can happen when you just reach the space. So if you are planning to visit and go for a space ride, be prepared for some phisiological unpleasantness! He said its like sea-sickness.</span><br /><br /><span style="color: rgb(204, 51, 204);">To become an astronaut, he said, you need good physical fitness, sound mental balance, and a sound educational background. After that, its a luck to be selected, as there is lot of competition and few jobs available!</span><br /><br /><span style="color: rgb(204, 51, 204);">A Physics Graduate, who did research in Astronomy, and took over Air Pilot job, and then worked as an Astronaut, Claude Nicollier is now full time professor in </span><span style="color: rgb(204, 51, 204);">Lausanne, inspiring young students to the thrill of Space research. </span></span>Abhay Karnatakihttp://www.blogger.com/profile/03735264276408589770noreply@blogger.com0tag:blogger.com,1999:blog-3507023850610911424.post-51874708246635308242008-11-11T16:38:00.000+05:302008-11-11T16:43:08.617+05:30Diwali crackers<div style="MARGIN: 0px auto 10px; TEXT-ALIGN: center"><a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEi4SxhilVMOPgITjjSxhccjrG7KQN_vqlhpiT6d831eZugIrdlFBztR-7NwaAA7XHkhXpXnGEo_P_fahjBSIc74ok41XDGIOKTRPLfGY9ZTC6lJQCq_bFshy9NL_wFi3h9OfVn7q9MhL4y1/s1600-h/4Nov+164.jpg"></a><br />I saw this cracker rocket in Diwali, I don't know how it could go zigzag, like a snake in the middle of the air. Can you figure that out.It also whistles. </div><div style="CLEAR: both; TEXT-ALIGN: center"> </div><iframe allowfullscreen='allowfullscreen' webkitallowfullscreen='webkitallowfullscreen' mozallowfullscreen='mozallowfullscreen' width='320' height='266' src='https://www.blogger.com/video.g?token=AD6v5dz0pp5at6TTqmyRc0SIsDhfR4qDE02EXB8bUy37RHuYa-RsQg-ZAsDcifsPCItkf5zlOHii_0gCSPfNfv0BFA' class='b-hbp-video b-uploaded' frameborder='0'></iframe>Abhay Karnatakihttp://www.blogger.com/profile/03735264276408589770noreply@blogger.com0