1/15/20141 1. A car starts from rest and travel 10s with uniform acceleration 5m/s 2. Find out its final velocity. Here, u=0 m/s t=10s a= 5m/s 2 v=? We.

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Presentation transcript:

1/15/ A car starts from rest and travel 10s with uniform acceleration 5m/s 2. Find out its final velocity. Here, u=0 m/s t=10s a= 5m/s 2 v=? We know,

1/15/ A car travels with uniform acceleration 5m/s 2 and after 10s its final velocity is 60m/s. What was its initial velocity? Here, v=60 m/s t=10s a= 5m/s 2 u=? We know,

1/15/ A car moving in uniform acceleration with initial velocity 10m/s and after 10s its final velocity is 60m/s. Find out its acceleration Here, u=10m/s t=10s v=60 m/s a= ? We know,

1/15/ A car travels with uniform acceleration 5m/s 2. Its initial velocity is 10m/s and final velocity is 60m/s. Find out the time it traveled. Here, a= 5m/s 2 u=10m/s v=60 m/s t=? We know,

1/15/ A car starts from rest and is accelerated uniformly at the rate of 5 m/s 2 for 10s. Find out the distance covered in meters. Here, a= 5m/s 2 t=10s u=0m/s x=? We know,

1/15/ A super sonic fighter dropped a bomb when it was 2 km above the ground. Find out the time needed for the bomb to reach ground. Here, a= 10 m/s 2 x= 2 km = 2000m u= 0m/s t = ? We know,

1/15/ A super sonic fighter dropped a bomb when it was 2 km above the ground. Find out the velocity of the bomb when it touches ground. Here, a= 10 m/s 2 x= 2 km = 2000m u= 0m/s v = ? We know,

1/15/ A super sonic fighter dropped a bomb and after 20 s the bomb touches the ground. Find out the height of the fighter. Here, a= 10 m/s 2 u= 0m/s t = 20 s x= ? We know,

1/15/ A bullet of mass 10g and speed 72 km/h hit a sand bag and stopped in 0.1s. Find out the depth it enters into the sand bag and the retardation force. Here, m= 10 g = 0.01kg u= 72 km/h =20 m/s v= 0 m/s t= 0.1s x= ? F=? We know,

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1/15/ A bullet of mass 10g and speed 72 km/h hit a sand bag and entered 1 m into the bag. Find out the time it take and the retardation force. We know, Here, m= 10 g = 0.01kg u= 72 km/h =20 m/s x= 1 m v= 0 m/s t= ? F=?

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