An object is projected at an angle of 45° with the horizontal. The horizontal range and maximum height reached will be in the ratio
1 : 2
2 : 1
1 : 4
4 : 1
A ball which is at rest is dropped from a height h metre. As it bounces off the floor its speed is 80% of what it was just before touching the ground. The ball will then rise to nearly a height
0.94 h
0.80 h
0.75 h
0.64 h
Two bodies of different masses are dropped from heights of 16 m and 25 m respectively. The ratio of the time taken by them to reach the ground is
The centripetal acceleration of particle of mass m moving with a velocity v in a circular orbit of radius r is
v2/r along the radius, towards the centre
v2/r along the radius, away from the centre
mv2/r along the radius, away from the centre
mv2/r along the radius, towards the centre
A stationary body of mass m explodes into three parts having masses in the ratio 1 : 3 : 3. The two fractions with equal masses move at right angles to each other with a velocity of 1.5 ms-1. Then the velocity of the third body is
5 ms-1
1.5 ms-1
A.
(1 × v)2 = (3 × 1.5)2 + (3 × 1.5)2
⇒ v =
A body is projected vertically upwards from the surface of a planet of radius r with a velocity equal to 1/3rd the escape velocity for that planet. The maximum height attained by the body is
R/2
R/3
R/9
R/8
The maximum and minimum magnitudes of the resultant of two given vectors are 17 units and 7 units respectively. If these two vectors are at right angles to each other, the magnitude of their resultant is
14
16
18
13
Three vectors satisfy the relation A . B = 0 and A . C = 0, then A is parallel to
C
B
B × C
B . C
For a given velocity, a projectile has the same range R for two angles of projection if t1 and t2 are the time of flight in the two cases, then
t1t2 ∝ R
t1t2 ∝ R2
Look at the graphs (a) to (d) carefully and indicate which of these possibly represents one dimensional motion of a particle ?