Question:
Two balls are thrown simultaneously in air. The acceleration of the centre of mass of the two balls when in air,
Two balls are thrown simultaneously in air. The acceleration of the centre of mass of the two balls when in air,
Updated On: Feb 23, 2024
- depends on the masses of the two balls
- depends on the speeds of the two balls
- is equal to $g$ (Acceleration due to gravity)
- depends on the direction of motion of the two balls.
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The Correct Option is C
Solution and Explanation
We know that,
Acceleration of centre of mass
$a _{ cm }=\frac{m_{1} a _{1}+m_{2} a _{2}}{m_{1}+m_{2}}$
Here, $a_{1}=a_{2}=g$ (Because balls are thiown in air i.e. under the gravity)
$a _{ cm }=\frac{m_{1} g+m_{2} g}{m_{1}+m_{2}}$
$a_{ cm }=\frac{g\left(m_{1}+m_{2}\right)}{m_{1}+m_{2}} $
$a _{ cm }=g$
Acceleration of centre of mass
$a _{ cm }=\frac{m_{1} a _{1}+m_{2} a _{2}}{m_{1}+m_{2}}$
Here, $a_{1}=a_{2}=g$ (Because balls are thiown in air i.e. under the gravity)
$a _{ cm }=\frac{m_{1} g+m_{2} g}{m_{1}+m_{2}}$
$a_{ cm }=\frac{g\left(m_{1}+m_{2}\right)}{m_{1}+m_{2}} $
$a _{ cm }=g$
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Concepts Used:
System of Particles and Rotational Motion
- The system of particles refers to the extended body which is considered a rigid body most of the time for simple or easy understanding. A rigid body is a body with a perfectly definite and unchangeable shape.
- The distance between the pair of particles in such a body does not replace or alter. Rotational motion can be described as the motion of a rigid body originates in such a manner that all of its particles move in a circle about an axis with a common angular velocity.
- The few common examples of rotational motion are the motion of the blade of a windmill and periodic motion.