A bullet of mass 10 g travelling horizontally with a velocity of 150m/s strikes a stationary wooden block and come to rest in 0.03s.Calculate the distance of penetration of the bullet into the block. Also, calculate the magnitude of force exerted by the wooden block of the bullet ?
Answers
Hey!!
Here is ur answer!
Answer:
50 N
Explanation:
Initial velocity, u= 150 m/s
Final velocity, v= 0 (since the bullet finally comes to rest)
Time taken to come to rest, t= 0.03 s
According to the first equation of motion, v= u + at
Acceleration of the bullet, a
0 = 150 + (a — 0.03 s)a = -150 / 0.03 = -5000 m/s2
(Negative sign indicates that the velocity of the bullet is decreasing.)
According to the third equation of motion:
v2= u2+ 2as
0 = (150)2+ 2 (-5000)
= 22500 / 10000
= 2.25 m
Hence, the distance of penetration of the bullet into the block is 2.25 m.
From Newton’s second law of motion:
Force, F = Mass * Acceleration
Mass of the bullet, m = 10 g = 0.01 kg
Acceleration of the bullet, a = 5000 m/s2
F = ma = 0.01 * 5000 = 50 N
Hence, the magnitude of the force exerted by the wooden block on the bullet is 50 N.
Hope it helps u!! :)
Answer:
Initial velocity of the bullet, u=150 ms
−1
Final velocity of the bullet, v=0
Mass of the bullet, m=10 g=0.01 kg
Time taken by the bullet to come to rest, t=0.03 s
Let distance of penetration be s
v=u+at
0=150+a(0.03)
⟹a=−5000 ms
−2
(- sign shows retardation)
v
2
=u
2
+2as
0=150
2
+2×(−5000)×s
s=2.25 m
Magnitude of the force exerted by the wooden block, ∣F∣=m∣a∣
∣F∣=0.01×5000=50 N