How much force is needed to accelerate a 1000 kg car at a rate of 3 m 52?
How much force is needed to accelerate a 1000 kg car at a rate of 3 m 52?
hence, the force needed to accelerate the 1000kg car by 3m/s2 is 3000N .
What will be the momentum of a car having mass of 1000 kg moving with a velocity of 0.5 Metre per second?
We know that Momentum p = Mass m × Velocity v Therefore p = 1000 kg × 0.5 m/s = 500 kg m/s Thus momentum of the car = 500 kg m/s.
What is the amount of work required to stop a car 1000 kg moving with a speed of 72 km per hour?
W = 1 2 × 1000 × 20 × 20 = 400000 J.
Is a 1000 kg vehicle moving with a speed of 20 meters per second is brought to rest in a distance of 50 meters
A 1000 kg vehicle moving with a speed of 20m/s is brought to rest in a distance of 50 meters : (i) Find the acceleration. (ii)Calculate the unbalanced force acting on the vehicle. Hence, the unbalanced force acting on the vehicle is -4000N.
How much force is needed to accelerate a 1000 kg car at a rate of 3?
Hence, the force needed to accelerate the 1000 kg car by 3ms2 is 3000 N.
How much force is required to accelerate a 2 kg mass at 3?
Force (F)= Mass (m)× Acceleration (a). ∴F=ma. ∴F=(2kg)×(3ms2). ∴F=6kgms2=6 Newton.
What is the momentum of 1000 kg car moving northward at 20 m?
p = mv = (1000kg)(20m/s) = 20000 kg m/s, northward • c.
What is the momentum of a 2000 kg truck that moves at 10 ms?
Momentum before the collision is p=mv=2000⋅10=20,000 kgms−1 .
What is the momentum of a 1200 kg car with a velocity of 25 m s?
Answer and Explanation: We can find the momentum of the car by multiplying the mass times the velocity. Because both the mass and velocity are given in SI units, we do not need to perform any unit conversion before multiplying. Hence, we have shown that the momentum of the car is 30000 kg m/s.
What is the amount of work required to stop a car of 1000 kg moving?
Answer: Work required to stop a car is 400000 Joule or 400 kilojoule. To convert km/hr into m/s , we multiply it by 5/18.
How do you stop a 1500 kg car from moving?
Hence, work required to stop the car =12×1500×16.662 =208166.7J=208.17kJ.
How much work is done to move a 1400 kg car?
Hence, the work done against the friction =20300 J. A car weighing 1400 kg is moving at a speed of 54 km/h up a hill when the motor stops. If it is just able to reach the destination which is at a height of 10 m above the point, calculate the work done against friction (negative of the work done by the friction).
How much force does a 1000 kg car need to accelerate at 3m s to the south?
Answer: hence, the force needed to accelerate the 1000kg car by 3m/s2 is 3000N.
How much net force is required to accelerate a 1000 kg car at?
So the net force is required to accelerate a 1000 kg car at 4.00 m/s2 is 4000 N.
How much work is required to accelerate a 1000 kg car?
The work done to accelerate the 1000 kg car from 20 m/s to 30 m/s is equal to the change in kinetic energy of the car. The change in kinetic energy denoted by ∆KE is equal to the final KE – the initial KE. The work required to accelerate a 1000 kg car from 20 m/s to 30 m/s is equal to 250,000 joules.
How much net force is required to accelerate a 2000 kg car at 3.00 meters per second?
Thus, to accelerate the car at 3.00 m/s^2 of mass 2000 kg net force required is 6000 N.