The stoplight had just changed and a 1800 kg Cadillac had entered the intersection, heading north at 4.0 m/s, when it was struck by a 1200 kg eastbound Volkswagen. The cars stuck together and slid to a halt, leaving skid marks angled 35∘ north of east. How fast was the Volkswagen going just before the impact?

Question

Physics

Carl Wheeler

26 May, 03:05

The stoplight had just changed and a 1800 kg Cadillac had entered the intersection, heading north at 4.0 m/s, when it was struck by a 1200 kg eastbound Volkswagen. The cars stuck together and slid to a halt, leaving skid marks angled 35∘ north of east. How fast was the Volkswagen going just before the impact?

+5

Answers (1)

Know the Answer?

Axel Bullock · Answer 1

Answer: 8.6 m/s

Explanation:

Assuming no external forces present during the collision, total momentum must be conserved.

As momentum is a vector, if we decompose it in two perpendicular components (one N-S and the other W-E), total momentum must be conserved for both directions.

Prior to collision, the only component in the eastbound direction was due to the Volkswagen:

px = mvolk. Vvolk = 1,200 kg. Vvolk

After the collision, we have a component along this axis, which is the projection of the momentum vector due to both cars stuck together, 35º north of the east:

pxf = (mvolk + mcad). vf. cos 35º (1)

With this same reasoning, we can write the following equation for the momentum on the N-S axis:

py1 = 1,800 kg. 4.0 m/s = (1,800 + 1,200) kg. Vf. sin 35º (2)

Dividing both sides in (2) and (1), we get:

1,800. 4.0 / 1,200. Vvolk = tg 35º

Solving for Vvolk:

Vvolk = 7,200 / 1,200. tg 35º = 8.6 m/s