Explanation Given: The mass of the car A is m A = 20 Mg . The initial velocity of car A is ( v A ) 1 = 3 m/s . The mass of the car B is m B = 15 Mg . The initial velocity of car A is ( v B ) 1 = 1.5 m/s (opposite direction). After collision the car B has the velocity of ( v B ) 2 = 2 m/s to the right. The collision time is t = 0.5 s . Write the principle of conservation of linear momentum. m A ( v A ) 1 + m B ( v B ) 1 = m A ( v A ) 2 + m B ( v B ) 2 (I) Here, m is the mass of the car, v is the velocity of the car, the suffixes A , B indicates the cars A and B and 1 , 2 indicates the initial and final stages. Write the principle of linear momentum and impulse. m v 1 + ∑ ∫ t 1 t 2 F d t = m v 2 (II). Here, ∑ ∫ t 1 t 2 F d t is the total impulse due to all the forces. Conclusion: Calculate thevelocity of the car A after collision. Substitute 20 Mg for m A , 3 m/s for ( v A ) 1 , 15 Mg for m B , − 1.5 m/s for ( v B ) 1 and 2 m/s for ( v B ) 2 in Equation (I). ( 20 Mg × 3 m/s ) + [ 15 Mg × ( − 1.5 m/s ) ] = [ 20 Mg × ( v A ) 2 m/s ] + 15 Mg × 2 m/s ( 60 − 22.5 ) Mg ⋅ m/s = [ 20 ( v A ) 2 + 30 ] Mg ⋅ m/s 37 .5 = 20 ( v A ) 2 + 30 ( v A ) 2 = 37.5 − 30 20 ( v A ) 2 = 7

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Chapter 15, Problem 7FP

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The velocity of car A after collision and theaverage impulsive force acting between the cars:

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The velocity of car A after collision and theaverage impulsive force acting between the cars:

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