What will be the angle of reflection in case of an inelastic collision and `v=`?
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To solve the problem regarding the velocities of two masses connected by a light inextensible string over a pulley, we can follow these steps:
### Step-by-Step Solution:
1. **Identify the Given Information**:
- Masses: \( m_1 \) and \( m_2 \)
- Initial velocity of mass \( m_1 \): \( v_0 \)
- The string is initially not taut and becomes taut when the system is set in motion.
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Is whole of the kinetic energy lost in a perfectly inelastic collision ?
If the angle of reflection is 40^@ , what is the angle of incidence?
Anwer carefully, with reasons: a) In an elastic collision of two billiard balls, is the total kinetic energy conserved during the short time of collision of the balls (i.e. when they are in contact)? Is the total linear momentum conserved during the short time of an elastic collision of two balls? c) What are the answers to a) and b) for an inelastic collision? d) If the potenital energy of two billiard balls depends only on the separation distance between their centers, is the collision elastic or inelastic? (note we are talking here of potential energy corresponding to the force during collision, not gravitational potential energy).
In total internal reflection when the angle of incidence is equal to the critical angle for the pair of medium in contact, what will be angle of refraction? In total internal reflection when the angle of incidence is equal to the critical angle for the pair of medium in contact, what will be angle of refraction? In total internal reflection when the angle of incidence is equal to the critical angle for the pair of medium in contact, what will be angle of refraction?
A ball hits a floor and rebounds after an inelastic collision. In this case
CENGAGE PHYSICS ENGLISH-CENTRE OF MASS-INTEGER_TYPE
