A bullet of mass 50 g moving with an initial velocity of 100 m s-1, strikes a wooden block and comes to rest after penetrating a distance 2 cm in it. Calculate (i) initial momentum of the bullet (ii) final momentum of the bullet, (iii) retardation caused by the wooden block, and (iv) resistive force exerted by the wooden block

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Flash Institute · Accepted Answer

Mass (m) = 50 g or 0.05 kg
Initial velocity (u) = 100 m s-1
Displacement (S) = 2 cm
(i) Initial momentum of the bullet = mass (m) × initial velocity (u)
Substituting the values in the formula above we get,
Initial momentum = 0.05 × 100 = 5 kg m s-1
Hence, Initial momentum = 5 kg m s-1
(ii) Final momentum = mass (m) × final velocity (u)
Substituting the values in the formula above we get,
Final momentum = 0.05 × 0 = 0 kg m s-1
Hence, Final momentum = Zero
(iii) As we know,
v2 &#8211; u2 = 2as
⇒ 02 &#8211; 1002 = 2 × a × 0.02
⇒ -10000 = 0.04 a
⇒ a = &#8211; 10000/0.04 = &#8211; 250000 m s-2
Hence,
Retardation caused by wooden block = 2.5 × 105 m s-2
(iv) Now, Force (f) = mass (m) × acceleration (a)
F = 0.05 × 2.5 × 105 = 0.125 × 105 N
Hence, The resistive force exerted by the wooden block = 12500 N

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