PART A)
momentum of Bill's car
mass = 900 kg
speed = 3.5 m/s towards west
so momentum of this car given as
[tex]P_1 = 900(3.5) = 3150 kg m/s[/tex]
Similarly momentum of Tanya's car
mass = 1100 kg
speed = 2 m/s towards East
so momentum will be
[tex]P_2 = 1100(2) = 2200 kg m/s[/tex]
Total momentum of both cars will be
[tex]P = 3150 -2200 = 950 kg m/s[/tex] Towards west
PART B)
Since there is no external force on the system of two cars
So here total momentum of both cars will remains conserved
So final momentum of two cars will be same as initial momentum
[tex]P = 950 kg m/s[/tex] towards west
Part C)
final momentum of Bills car
[tex]P_1 = (900)(2) = 1800 kg m/s[/tex] Towards East
now we have
[tex]P_1 + P_2 = 950[/tex]
[tex]1100 v - 1800 = 950[/tex]
[tex]v = 2.5 m/s[/tex] towards west
a) Simply add the momentum but remember that velocities in opposite directions have opposite signs. West direction is positive, east - negative.
p = 900*3.5 + 1100*(-2) = 950 kg*m/s.
b) After the collision (thanks to the law of conservation of momentum) the momentum is still 950 kg*m/s
c) Since the total momentum is the same (950), but something inside changed, write
950 = 900*(-2)+1100*u, so solve it
u=2.5 m/s. Positive sign means that Tanya's car goes west.
Regards,
226483
