Which of the following is an appropriate expression for the radius of curvature of a projectile at the highest point? (R Range of projectile)
(1)
(2)
(3) 2R cot
(4) 2R tan
The coordinates of a particle moving in the x-y plane vary with time according to the following relation:
, .
The locus of the particle is:
(1) Parabola
(2) Circle
(3) Eclipse
(4) Hyperbola
If represents the instant at which the instantaneous velocity becomes perpendicular to the direction of initial velocity during a projectile and represents the time after which the particle attains maximum height, then is:
1.
2.
3.
4.
A park is in the shape of a regular hexagon. Six friends standing at each corner of the park start moving towards each other with the same speed 2 m/s and meet each other after 60 s. The side of the park is
(1) 120 m
(2) 30 m
(3) 240 m
(4) 60 m
A ball is projected horizontally from a cliff 40 m high at a speed of 40 m/s and simultaneously a ball is dropped. If the time taken by the two balls to reach the ground are respectively (taking air friction into consideration), then
(1)
(2)
(3)
(4) Depending on air friction maybe less or more than
Select the incorrect statement:
1. | It is possible to have \(\left|\frac{{d} \overrightarrow{v}}{dt}\right| = 0 \) and \(\frac{{d}|\overrightarrow{v}|}{{dt}} \neq 0 \) |
2. | It is possible to have\(\left|\frac{{d} \overrightarrow{{v}}}{{dt}}\right| \neq 0 \) and \(\frac{{d}|\overrightarrow{{v}}|}{dt}=0 .\) |
3. | it is possible to have\(\left|\frac{{d} \overrightarrow{v}}{{dt}}\right|=0\) and \(\frac{{d}|\overrightarrow{{v}}|}{dt}=0 . \) |
4. | It is possible to have \(\left|\frac{{d} \overrightarrow{{v}}}{{dt}}\right| \neq 0\) and \(\frac{{d} \overrightarrow{{v}}}{{dt}} \neq 0 \) |
A projectile is fired horizontally from the top of a tower. The time after which the instantaneous velocity will be perpendicular to the initial velocity is (neglect air resistance) :
(1)
(2)
(3)
(4) It will never be perpendicular at any instant
A particle of mass \(2\) kg is moving in a circular path with a constant speed of \(10\) m/s. The change in the magnitude of velocity when a particle travels from \(P\) to \(Q\) will be: [assume the radius of the circle is \(10/\pi^2]\)
1. | \(10 \sqrt{3} \) | 2. | \(20 \sqrt{3}\) |
3. | \(10\) | 4. | \(0\) |
Uniform circular motion is an example of:
(1) Uniform motion
(2) Uniform speed
(3) Uniform acceleration
(4) Non-uniform speed
Given below are two statements:
Statement I: | The path of a projectile with respect to another projectile is a straight line. |
Statement II: | The acceleration of one projectile with respect to the other is zero. |
1. | Statement I is false but Statement II is true. |
2. | Both Statement I and Statement II are true. |
3. | Both Statement I and Statement II are false. |
4. | Statement I is true but Statement II is false. |