Answer:
a)
b)
c) ΔK=
d)ΔK=
Explanation:
From the exercise we know that there is a collision of a sports car and a truck.
So, the sport car is going to be our object number 1 and the truck object number 2.
Since the two vehicles remain locked together after the collision the final mass is:
a) To find the velocity of the two vehicles just after the collision we must use linear's momentum principle
b) To find the speed the truck should have had so both vehicles stopped in the collision we need to use the same principle used before
c) To find the change in kinetic energy we need to do the following steps:
ΔK=
ΔK=
d) The change in kinetic energy where the two vehicles stopped in the collision is:
ΔK=
ΔK=
Answer
given,
before collision
mass of car A = m_a = 1300 kg
velocity of car A = v_a = 35 mph
mass of car B = m_b= 1000 kg
velocity of car B = v_b = 25 mph
after collision
V_a = 30 mph
V_b = 31.5 mph
Initial momentum
final momentum
here initial momentum is equal to the final momentum of the car.
hence, momentum is conserved in the collision.
Answer:Food contains chemical potential energy. As our bodies digest it, the stored energy is converted into energy for us to move and grow.
Explanation:
Ice is only thing which is mightier than steel because it can breaks things which are made up of steels like ships but in the sunlight ice melts away it means it cowards away.
Density = mass /volume= 1000/100= 10 kg/m'3