W A gray car with a mass of 1500 kg, a wheelbase length (1)of 2000 mm and a wheelbase width (w) of 1000 mm the turning radius or radius of curvature() is set to P = √(0.51² + 1² cot²8) mm in which the relationship of 8, w, and I is tan 8 = If the gray car makes a U-turn at an 1 accelerated rateto the center of constant 1.5 m/s² which at the same time has a mass red car2400 kg, moving from a standstill to a speed of 100 km/h in 5 seconds, colliding with a gray car making a U-turn as shown in the picture. Find the velocity after collision of the two cars as a vector quantity. and the scalar quantity in case (A) The two cars collided with each other. (B) Both cars have a coefficient of restitution of 0.60 0

W A gray car with a mass of 1500 kg, a wheelbase length (1)of 2000 mm and a wheelbase width (w) of 1000 mm the turning radius or radius of curvature() is set to P = √(0.51² + 1² cot²8) mm in which the relationship of 8, w, and I is tan 8 = If the gray car makes a U-turn at an 1 accelerated rateto the center of constant 1.5 m/s² which at the same time has a mass red car2400 kg, moving from a standstill to a speed of 100 km/h in 5 seconds, colliding with a gray car making a U-turn as shown in the picture. Find the velocity after collision of the two cars as a vector quantity. and the scalar quantity in case (A) The two cars collided with each other. (B) Both cars have a coefficient of restitution of 0.60 0

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Question

P =
√(0.51² + 1² cot²8) mm
is tan 8 =
A gray car with a mass of 1500 kg, a wheelbase length (l)of 2000 mm and a wheelbase width (w
of 1000 mm the turning radius or radius of curvature) is set to
in which the relationship of 8, w, and
If the gray car makes a U-turn at an
accelerated rateto the center of constant 1.5 m/s² which at the same time has a mass red
car2400 kg, moving from a standstill to a speed of 100 km/h in 5 seconds, colliding with a
gray car making a U-turn as shown in the picture. Find the velocity after collision of the two
cars as a vector quantity. and the scalar quantity in case
(A) The two cars collided with each other.
(B) Both cars have a coefficient of restitution of 0.60
0
W

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