-
*Image* *Image* ...
-
*Image* *Image* ...
-
How can v increase the work-function of Tungsten??? ...
-
*Image* sorrry 4 postin such a horrific image ....LOL...... ans = a ...
-
*Image* ...
-
*Image* ...
-
If y is a fn. of x such that y(x-y)2=x , then Find ∫dx/(x-3y) ...
-
*Image* ...
-
*Image* ...
-
Today's FULL Test XI AITS question.. [7] 1. Find.. lim (sin4x+sin4(2x)+...+sin4(2nx)) n→∞ 4 4n ...
-
A tower subtends angle x° at a point A at its base plane. If the angle of depression of the foot of the tower at a point B at b height above A is y°, then the height of the tower is ans : B tan x° cot y° DIAGRAM SHALL B E ...
-
A tower subtends angle x° at a point A at its base plane. If the angle of depression of the foot of the tower at a point B at b height above A is y°, then the height of the tower is ans : B tan x° cot y° DIAGRAM SHALL B E ...
-
A tower subtends angle x° at a point A at its base plane. If the angle of depression of the foot of the tower at a point B at b height above A is y°, then the height of the tower is ans : B tan x° cot y° DIAGRAM SHALL B E ...
-
*Image* ...
-
*Image* sorrry 4 postin such a horrific image ....LOL...... ans = a ...
-
Centripetal acceleration of a particle of mass m moving in a circular of radius r is 4/r2 . What is the momentum of the particle? 4m/r 4m/√r 2m/√r 2m/r ans (c) ...
-
MULTIPLE CORRECT ANSWER TYPE Which of the following is true (mn!)^2 is divisible by a) (m!)^(m+1)*(n!)^(n+1) b) (m!)^n * (n!)^m c) (n!)^n * (m!)^m substituting values n gettin ans is pretty easi here i wud like 2 kno da meth ...
-
Centripetal acceleration of a particle of mass m moving in a circular of radius r is 4/r2 . What is the momentum of the particle? 4m/r 4m/√r 2m/√r 2m/r ans (c) ...
-
Centripetal acceleration of a particle of mass m moving in a circular of radius r is 4/r2 . What is the momentum of the particle? 4m/r 4m/√r 2m/√r 2m/r ans (c) ...
-
SORRY :( 4 DISCUSSIN goiit ques here.... but over ther none get solved and no Expert replies!!! QUE 1 Lattice (III): A atoms and B atoms crystallises as: A atoms occupying the corners whereas B atoms are occupying all the edg ...
-
SORRY :( 4 DISCUSSIN goiit ques here.... but over ther none get solved and no Expert replies!!! QUE 1 Lattice (III): A atoms and B atoms crystallises as: A atoms occupying the corners whereas B atoms are occupying all the edg ...
-
SORRY :( 4 DISCUSSIN goiit ques here.... but over ther none get solved and no Expert replies!!! QUE 1 Lattice (III): A atoms and B atoms crystallises as: A atoms occupying the corners whereas B atoms are occupying all the edg ...
-
MULTIPLE CORRECT ANSWER TYPE Which of the following is true (mn!)^2 is divisible by a) (m!)^(m+1)*(n!)^(n+1) b) (m!)^n * (n!)^m c) (n!)^n * (m!)^m substituting values n gettin ans is pretty easi here i wud like 2 kno da meth ...
-
SORRY :( 4 DISCUSSIN goiit ques here.... but over ther none get solved and no Expert replies!!! QUE 1 Lattice (III): A atoms and B atoms crystallises as: A atoms occupying the corners whereas B atoms are occupying all the edg ...
-
Let f (x + y) = f (x) f (y) for all x and y. Suppose that f (3) = 3 and f '(0) = 11. Then f ' (3) is given by : opts are : 22,33,44, none of these.... Ans: I'm getting 33 but the ans reads none of thes ...
-
THIS WAS A COMP TYPE QUESTN SO OBVIOUSLY HAD 3 QUESTNS.... I HAD POSTD JUS DA FIRST ONE THINKIN MAYB SUM1 WILL GET THE FUNCTN f(x) but Anurag has come up with a real novel solution so i am forced to post da 2nd and da 3rd que ...
-
THIS WAS A COMP TYPE QUESTN SO OBVIOUSLY HAD 3 QUESTNS.... I HAD POSTD JUS DA FIRST ONE THINKIN MAYB SUM1 WILL GET THE FUNCTN f(x) but Anurag has come up with a real novel solution so i am forced to post da 2nd and da 3rd que ...
-
THIS WAS A COMP TYPE QUESTN SO OBVIOUSLY HAD 3 QUESTNS.... I HAD POSTD JUS DA FIRST ONE THINKIN MAYB SUM1 WILL GET THE FUNCTN f(x) but Anurag has come up with a real novel solution so i am forced to post da 2nd and da 3rd que ...
-
ITS A COMPREHENSION TYPE QUESTN *Image* *Image* answer : coming soon..... ...
-
ITS A COMPREHENSION TYPE QUESTN *Image* *Image* answer : coming soon..... ...