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JEE Physics Solved Question Paper 2010

Multiple Choice Questions

STATEMENT – 1
Two particles moving in the same direction do not lose all their energy in a completely inelastic collision.
STATEMENT – 2
Principle of conservation of momentum holds true for all kinds of collisions.

The statement I is True, Statement II is False.
The statement I is True, Statement II is True; Statement II is a correct explanation for Statement I.
The statement I is True, Statement II is True; Statement II is not the correct explanation for Statement I.
The statement I is True, Statement II is True; Statement II is not the correct explanation for Statement I.

264 Views

A particle is moving with velocity, $straight v space equals space straight k left parenthesis straight y space bold i with hat on top space plus space straight x space bold j with hat on top right parenthesis$ where K is a constant. The general equation for its path is

y = x² + constant
y² = x + constant
xy = constant
xy = constant

164 Views

3.
The figure shows the position –time (x – t) graph of one–dimensional motion of a body of mass 0.4 kg. The magnitude of each impulse is

0.4 (Ns)

0.8 Ns

1.6 Ns

1.6 Ns

0.8 Ns

From the graph it is a straight line, so uniform motion. Because of impulse direction of velocity changes as can be seen from the slope of the graph.
(∴ impulse (l) = f x t
⇒ I = mat
$space equals space fraction numerator straight m space left parenthesis straight v subscript 2 minus straight v subscript 1 right parenthesis over denominator straight t end fraction space straight t space equals space mv subscript 2 space minus space mv subscript 1$
Initial velocity, v₁ = 2/2 = 1 ms^-1
Final velocity v₂ = 2/2 = - 1 ms^-1
p_i = mv1 = 0.4 N-s
p_f = mv2 = -0.4 N-s
J = p_f-p_i = -0.4-0.4
= - 0.8 N-s
|J| = 0.8 N-s

438 Views

The respective number of significant figures for the numbers 23.023, 0.0003 and 2.1 × 10^–3 are

5,1,2
5,1,5
5,5,2
5,5,2

228 Views

A point p moves in counter -clockwise direction on a circular path as shown in the figure. The movement of P is such that it sweeps out the length s = t3 + 5, where s is metre and t is in second. The radius of the path is 20 m. The acceleration of P when t =2 s is nearly

13 ms^-2
12 ms^-2
7.2 ms^-2
7.2 ms^-2

383 Views

Two fixed frictionless inclined planes making an angle 30° and 60° with the vertical are shown in the figure. Two blocks A and B are placed on the two planes. What is the relative vertical acceleration of A with respect to B?

4.9 ms^-2 in horizontal direction
9.8 ms^-2 in vertical direction
zero
zero

453 Views

For a particle in uniform circular motion, the acceleration an at $straight a with rightwards arrow on top$ point P (R, θ) on the circle of radius R is (Here θ is measured from the x–axis)

$negative straight v over straight R space cos space straight theta space bold i with bold hat on top space plus space straight v squared over straight R space sin space straight theta space bold j with bold hat on top$
$negative straight v over straight R space sin space straight theta space bold i with bold hat on top space plus space straight v squared over straight R space cos space straight theta space bold j with bold hat on top$
$negative straight v over straight R space cos space straight theta space bold i with bold hat on top space minus space straight v squared over straight R space sin space straight theta space bold j with bold hat on top$
$negative straight v over straight R space cos space straight theta space bold i with bold hat on top space minus space straight v squared over straight R space sin space straight theta space bold j with bold hat on top$

675 Views

A small particle of mass m is projected at an angle θ with the x–axis with an initial velocity v₀ in the x–y plane as shown in the figure. At a time t<v_osin/g, the angular momentum of the particle is

$negative mgv subscript straight o space straight t squared space cos space straight theta space bold j with bold hat on top$
$mgv subscript 0 straight t space cos space straight theta space bold k with bold hat on top$
$negative 1 half space mgv subscript 0 straight t squared space cos space straight theta bold space bold k with bold hat on top bold space$
$negative 1 half space mgv subscript 0 straight t squared space cos space straight theta bold space bold k with bold hat on top bold space$

821 Views

A ball is made of a material of density ρ where ρ_oil < ρ < ρ_water with ρ_oil and ρ_water representing the densities of oil and water, respectively. The oil and water are immiscible. If the above ball is in equilibrium in a mixture of this oil and water, which of the following pictures represents its equilibrium position?

443 Views

10.

A diatomic ideal gas is used in a Carnot engine as the working substance. If during the adiabatic expansion part of the cycle the volume of the gas increases from V to 32 V,the efficiency of the engine is