﻿ A bullet is fired with a velocity u making an angle of 60° wi

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## NEET Physics Solved Question Paper 2009

#### Multiple Choice Questions

1.

are two vectors given by  and . The magnitude of the component of along $\stackrel{\to }{\mathrm{B}}$ is

• $\frac{5}{\sqrt{2}}$

• $\frac{3}{\sqrt{2}}$

• $\frac{7}{\sqrt{2}}$

• $\frac{1}{\sqrt{2}}$

2.

Given . What is the angle between  ?

• 30°

• 60°

• 90°

• 180°

3.

The acceleration a (in ms-2 ) of a body, starting from rest varies with time t (in s) following the equation a = 3 t + 4. The velocity of the body at time t = 2 s will be

• 10 ms-1

• 18 ms-1

• 14 ms-1

• 26 ms-1

4.

Figure below shows the distance-time graph of the motion of a car. It follows from the graph that the car is

• at rest

• in uniform motion

• in non-uniform acceleration

• uniformly accelerated

5.

Two particles have masses m and 4m and their kinetic energies are in the ratio 2 : 1. What is the ratio of their linear momenta ?

• $\frac{1}{\sqrt{2}}$

• $\frac{1}{2}$

• $\frac{1}{4}$

• $\frac{1}{16}$

6.

The force F acting on a particle moving in a straight line is shown below. What is the work done by the force on the particle in the 1st metre of the trajectory ?

• 5 J

• 10 J

• 15 J

• 2.5 J

7.

If the kinetic energy of a body changes by 20 %, then its momentum would change by

• 20 %

• 24 %

• 9.5 %

• 44 %

# 8.A bullet is fired with a velocity u making an angle of 60° with the horizontal plane. The horizontal component of the velocity of the bullet when it reaches the maximum height isu 0 $\frac{\sqrt{3\mathrm{u}}}{2}$ $\frac{\mathrm{u}}{2}$

D.

$\frac{\mathrm{u}}{2}$

At the highest point there will be only horizontal component of velocity i.e, u cos 60° = $\frac{\mathrm{u}}{2}$

9.

A particle is projected at 60° to the horizontal with a kinetic energy KE. The kinetic energy at the highest point is

• KE

• zero

• $\frac{\mathrm{KE}}{4}$

• $\frac{\mathrm{KE}}{2}$

10.

The work done in carrying a charge Q once around a circle of radius r about a charge q at the centre is

• $\frac{\mathrm{qQ}}{4{\mathrm{\pi \epsilon }}_{0}\mathrm{r}}$

• Zero