Answer:
Explanation:
Using the law of conservation of momentum which states that the sum of momentum of the bodies before collision is equal to the sum of momentum of bodies after collision.
Momentum = Mass*velocity
BEFORE COLLISION
The momentum of a 110.0 kg car traveling initially with a speed of 25.000 m/s in an easterly direction = 110*25 = 2750kgm/s
The momentum of a 8900.0 kg truck with a speed of 20.000 m/s in an easterly direction = 8900*20 = 178000kgm/s
Sum of momentum before collision = 2750 + 178000 = 180,750 kgm/s
AFTER COLLISION
The momentum of the car will be 110*18 = 1980kgm/s
The momentum of the truck = 8900v where v is the velocity of the truck after collision.
Sum of momentum after collision = 1980 + 8900v
Applying the conservation law;
180750 = 1980 + 8900v
8900v = 180750-1980
8900v = 178770
v = 178770/8900
v = 20.09m/s
Velocity of the truck after collision is 20.09m/s
Note that the collision is inelastic i.e the body moves with different velocities after collision
b) The mechanical energy experienced by the bodies is kinetic energy.
Kinetic energy = 1/2mv²
Sum of the Kinetic energy before collision = 1/2(110)*25²+1/2(8900)*20²
= 34375 + 1780000
= 1,814,375Joules
Sum of kinetic energy after collision = 1/2*(110)*18²+1/2(8900)*20.09²
= 17820+1796056.045
= 1,813,876.045Joules
Change in mechanical energy = 1,813,876.045Joules - 1,814,375Joules
= -498.955Joules
