Asked by Shawn
The driver accelerates a 240.0 kg snowmobile, which results in a force being exerted that speeds up the snowmobile from 6.00 m/s to 28.0 m/s over a time interval of 60.0 s.
b. What is the snowmobile's change in momentum? What is the impulse on the snowmobile?
c. What is the magnitude of the average force that is exerted on the snowmobile?
I don't understand how to solve this problem exactly, I little confused
b. What is the snowmobile's change in momentum? What is the impulse on the snowmobile?
c. What is the magnitude of the average force that is exerted on the snowmobile?
I don't understand how to solve this problem exactly, I little confused
Answers
Answered by
Damon
final momentum = 240*28 = 6720 kg m/s
original momentum = 240*6 = 1440 kg m/s
change in momentum = 6720-1440 = 5280 kg m/s
impulse = average force * time = change in momentum
so impulse = 5280 kg m/s
average force = (change in momentum or impulse)/time
= 5280 kg m/s / 60 s = 88 kg m/s^2 or Newtons
original momentum = 240*6 = 1440 kg m/s
change in momentum = 6720-1440 = 5280 kg m/s
impulse = average force * time = change in momentum
so impulse = 5280 kg m/s
average force = (change in momentum or impulse)/time
= 5280 kg m/s / 60 s = 88 kg m/s^2 or Newtons
Answered by
Jacob
The driver accelerates a 280.0 kg snowmobile, which results in a force being exerted that speeds up the snowmobile from 6.00 m/s to 30.0 m/s over a time interval of 60.0 s.
I'm confused about how to find the impulse on the snowboard and the magnitude of the average force exerted on the snowboard.
I'm confused about how to find the impulse on the snowboard and the magnitude of the average force exerted on the snowboard.