SOLUTION: A car with an initial velocity of 3.5 m/s coasts with the engine off and the transmission in neutral. If the combined effect of air resistance and rolling friction causes a constan
Algebra.Com
Question 214727: A car with an initial velocity of 3.5 m/s coasts with the engine off and the transmission in neutral. If the combined effect of air resistance and rolling friction causes a constant deceleration of 0.50 m/s2, after how long a time will the car come to a stop?
Answer by Alan3354(69443) (Show Source): You can put this solution on YOUR website!
A car with an initial velocity of 3.5 m/s coasts with the engine off and the transmission in neutral. If the combined effect of air resistance and rolling friction causes a constant deceleration of 0.50 m/s2, after how long a time will the car come to a stop?
----------------------
3.5/0.5 = 7 seconds
RELATED QUESTIONS
Its been a long time since I did problems like this. I know there a formula just can't... (answered by acerX)
If a car starts from A towards B with some velocity. Due to some problem in the engine... (answered by rwm)
A ball is thrown with an initial upward velocity of 5 m/s. What is its velocity after 1.5 (answered by ikleyn,solver91311)
Lisa decided to go with Sam to the store. They left Lisa’s house with an initial... (answered by ikleyn)
If an object is thrown downward with an initial velocity of v0, then the distance... (answered by ikleyn)
A car starts with an initial velocity of 30 mph and drives for 30 mins with an... (answered by richard1234)
A new car model is available in 6 different colors, with 2 transmissions and 2 different... (answered by Fombitz)
A car with an initial velocity of 25 m/s speeds up to 40 m/s over a period of 15 seconds. (answered by Alan3354)
A bullet is fired in the air vertically from ground level with an initial velocity of 354 (answered by robertb)