tag:blogger.com,1999:blog-27698739534958796222024-02-28T07:31:06.577+05:30MCQ Answers Guru.PhysicsKerala.inUnknownnoreply@blogger.comBlogger59665tag:blogger.com,1999:blog-2769873953495879622.post-66308444309392709402016-08-28T15:04:00.019+05:302016-08-28T15:05:21.464+05:30Electron in the atom are held in the atom due to<P><STRONG>Question : </STRONG> Electron in the atom are held in the atom due to</P> <p></p> <P>(A). coulombs force</P> <P>(B). nuclear force</P> <P>(C). atomic force</P> <P>(D). coulombs and nuclear force</P><BUTTON onclick=myFunctiongp556() id=buttgp556>Show Answer</BUTTON> <SCRIPT> function myFunctiongp556() { document.getElementById("buttgp556").innerHTML = "Answer is <strong>A</strong>"; } </SCRIPT> </TD></TR></TBODY></TABLE></td></tr></tbody></table><div class="blogger-post-footer">www.physicskerala.blogspot.com</div>Unknownnoreply@blogger.com0tag:blogger.com,1999:blog-2769873953495879622.post-77716519602769104802016-08-28T15:04:00.018+05:302016-08-28T15:05:15.087+05:30In the formula of the angular momentum L = rxp (p) denotes the<P><STRONG>Question : </STRONG> In the formula of the angular momentum L xp (p) denotes the</P> <p></p> <P>(A). displacement</P> <P>(B). power</P> <P>(C). momentum</P> <P>(D). speed</P><BUTTON onclick=myFunctiongp576() id=buttgp576>Show Answer</BUTTON> <SCRIPT> function myFunctiongp576() { document.getElementById("buttgp576").innerHTML = "Answer is <strong>C</strong>"; } </SCRIPT> </TD></TR></TBODY></TABLE></td></tr></tbody></table><div class="blogger-post-footer">www.physicskerala.blogspot.com</div>Unknownnoreply@blogger.com0tag:blogger.com,1999:blog-2769873953495879622.post-65348713958804680972016-08-28T15:04:00.017+05:302016-08-28T15:05:08.916+05:30The first linear equation of motion is represented as<P><STRONG>Question : </STRONG> The first linear equation of motion is represented as</P> <p></p> <P>(A). Vi f + at</P> <P>(B). Vf i-at</P> <P>(C). Vf i + at</P> <P>(D). Vf i + a</P><BUTTON onclick=myFunctiongp570() id=buttgp570>Show Answer</BUTTON> <SCRIPT> function myFunctiongp570() { document.getElementById("buttgp570").innerHTML = "Answer is <strong>C</strong>"; } </SCRIPT> </TD></TR></TBODY></TABLE></td></tr></tbody></table><div class="blogger-post-footer">www.physicskerala.blogspot.com</div>Unknownnoreply@blogger.com0tag:blogger.com,1999:blog-2769873953495879622.post-23657384726565424932016-08-28T15:04:00.016+05:302016-08-28T15:05:03.067+05:30If the turns ratio of transformer is 10 it means that<P><STRONG>Question : </STRONG> If the turns ratio of transformer is 10 it means that</P> <p></p> <P>(A). Is 0 Ip</P> <P>(B). Ip 0 Is</P> <P>(C). Ns 0 Np</P> <P>(D). Is Ip and Ip Is</P><BUTTON onclick=myFunctiongp572() id=buttgp572>Show Answer</BUTTON> <SCRIPT> function myFunctiongp572() { document.getElementById("buttgp572").innerHTML = "Answer is <strong>D</strong>"; } </SCRIPT> </TD></TR></TBODY></TABLE></td></tr></tbody></table><div class="blogger-post-footer">www.physicskerala.blogspot.com</div>Unknownnoreply@blogger.com0tag:blogger.com,1999:blog-2769873953495879622.post-37469183858137616982016-08-28T15:04:00.015+05:302016-08-28T15:04:56.855+05:30The gate whose output is 0 only when the inputs are different is called<P><STRONG>Question : </STRONG> The gate whose output is 0 only when the inputs are different is called</P> <p></p> <P>(A). XOR</P> <P>(B). XNOR</P> <P>(C). NOR</P> <P>(D). NAND</P><BUTTON onclick=myFunctiongp530() id=buttgp530>Show Answer</BUTTON> <SCRIPT> function myFunctiongp530() { document.getElementById("buttgp530").innerHTML = "Answer is <strong>A</strong>"; } </SCRIPT> </TD></TR></TBODY></TABLE></td></tr></tbody></table><div class="blogger-post-footer">www.physicskerala.blogspot.com</div>Unknownnoreply@blogger.com0