The minimum distance required to stop a car moving at 35.0 mph is 40.0 ft. What...
The minimum distance required to stop a car moving at 40.0 mi/h is 38.0 ft. What is the minimum stopping distance for the same car moving at 72.0 mi/h, assuming the same rate of acceleration? ft
Problem #6 (Extra Credit) The minimum distance required to stop a car moving at 35 km/hr is 40 meters. What is the minimum distant required to stop a car moving a km/h r, assuming the same rate of acceleration? (20 points)
A truck moving at 35.0 mph collides head on with a car traveling in the opposite direction. The mass of the car is 550 kg, the mass of the truck is 2200 kg. During the collision both vehicles come to a stop in 0.150 s as the front end of both vehicles’ crumples. What was the acceleration of the car? Assume that during the collision the acceleration of each vehicle is constant. Also, assume that frictional force are small compared...
The distance required for a car to come to a stop will vary depending on how fast the car is moving. Suppose that a certain car traveling down the road at a speed of 20 m/s can come to a complete stop within a distance of 80 m. Assuming the road conditions remain the same, what would be the stopping distance required for the same car if it were moving at speeds of 10 m/s, 40 m/s, or 5 m/s...
A car increases its speed from 30 mph to 60 mph in 10 seconds. (a) Determine your acceleration, in m / s2 , assuming it is constant. (b) What distance, in meters, does it travel in that time?
If it takes 100m to stop a car initially moving at 100 m/s what distance is required to stop a car moving at 200 m/s under the same condition? Show work using energy equations only. a. 50m b. 100m c. 200m d. 400m
A car moving initially at a speed of 52.0 mi/h and weighing 3,000 lb is brought to a stop in a distance of 205 ft. Find (a) the breaking force (b) the time required to stop. Assuming the same braking force find (a) the distance and (d) the time required to stop if the car were going 26.0mi/h initially. (Hint: Convert to SI units)
Q15 A car is moving on a circular track at constant speed v 40 MPH. The radius of the track is R 30 m. when the car has traveled a distance of πR, its acceleration is a) Pointing towards the center of the circle and equal to 10.7 m/s2 b) Pointing along the circle and equal to 10.7 m/s c) 0 d) None of the above.
EXERCISE You are traveling along an interstate highway at 35.0 m/s (about 79 mph) when a truck stops suddenly in front of you. You immediately apply your brakes and cut your speed in half after 5.0 s. Hint (a) What was your acceleration (in m/s2), assuming it was constant? (Assume you are initially traveling in the positive direction. Indicate the direction with the sign of your answer.) -3.5 m/s2 (b) How long (in s) did it take you to stop...
21) An antelope moving with a constant acceleration covers the distance between two points 70 m apart in 6 s. Its speed as it passes the second point is 15 m/s. What are a) its speed at the first point, and b) its acceleration? dtics.puf (64.6 KB) Page 2 -ZOOM + A car and truck start from rest at the same instant, with the car initially at some distance behind the truck. The truck has a constant acceleration of 2.1...