A ball of mass 0.01 kg is moving with a velocity of 50 m/s. On applying a constant force for 2 seconds on the ball, it acquires a velocity of 70 m/s. ●Calculate the initial and final momentum of the ball. ●Also, calculate the rate of change of momentum and the acceleration of the ball. ●What would be the magnitude of the force applied?i
Answers
mass
Initial velocity,
Initial momentum = mass Initial velocity.. formula.
Answer:
Answer :-
• Initial momentum is 0.5 kg m/s .
• Final momentum is 0.7 kg m/s .
• Rate change of momentum 0.1 kg m/s² .
• Acceleration is 10 m/s² .
• Magnitude of force is 0.1 Newton .
Explanation :-
We have :-
→ Mass of ball (m) = 0.01 kg
→ Initial velocity (u) = 50 m/s
→ Final velocity (v) = 70 m/s
→ Time (t) = 2 seconds
________________________________
Initial momentum :-
= m × u
= 0.01 × 50
= 0.5 kg m/s
Final momentum :-
= m × v
= 0.01 × 70
= 0.7 kg m/s
Rate of change of momentum :-
= (mv - mu)/t
= m(v - u)/t
= 0.01(70 - 50)/2
= 0.01(20)/2
= 0.01(10)
= 0.1 kg m/s²
Acceleration :-
According to 1st equation of motion .
⇒ v = u + at
⇒ 70 = 50 + a(2)
⇒ 70 - 50 = 2a
⇒ 20 = 2a
⇒ a = 20/2
⇒ a = 10 m/s²
Magnitude of force :-
According to Newton's 2nd law of motion we know that :-
Force = Rate of change of momentum
⇒ Force = 0.1 kg m/s²
⇒ Force = 0.1 N
Explanation:
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