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What force is needed to accelerate an elevator with a mass of 1000 kg upward at a rate of 2 m per second squared?
Weight of the elevator = 1000kg x -9.8m/s2 = -9800N Upward force acting on the elevator = 1000kg x 2m/s2 = 2000N Net force = upward force - weight of elevator = 2000N - (-9800N) = 11800N
How much force is needed to accelerate a 1 kilogram toy car at a rate of 2 meters per second south?
Force is mass times acceleration. Assuming you mean an acceleration of 2 meters per second per second the force is 1 x 2 = 2N, south direction
How much force is needed to accelerate a 1-kilogram toy car at rate of 2 meters per second per second?
-1
What force would be needed to accelerate a boulder having a mass of 1800 kg by 3 meters per second per second?
5400 N
How much force is needed to accelerate an 1800 kg truck 4 meters per second?
Force = mass * acceleration and acceleration is in units of meters per second squared. I will assume you mean this. m/s2 Force = (1800 kg)(4 m/s2) = 7200 Newtons ----------------------
What force is needed to accelerate an elevator with a mass of 1000 kg upward at a rate of 2 m per second squared?
Weight of the elevator = 1000kg x -9.8m/s2 = -9800N Upward force acting on the elevator = 1000kg x 2m/s2 = 2000N Net force = upward force - weight of elevator = 2000N - (-9800N) = 11800N
How much force is needed to accerlate an object at a rate of 2 meters per second per second?
That also depends on the object's mass. Use Newton's formula: force = mass x acceleration. If mass is in kg. and acceleratoin in meters per second square, force will be in Newton.
How much force is needed to accelerate a 1 kilogram toy car at a rate of 2 meters per second south?
Force is mass times acceleration. Assuming you mean an acceleration of 2 meters per second per second the force is 1 x 2 = 2N, south direction
How is an object's mass related to the upward force needed to overcome the pull of gravity?
The upward force would have to overcome gravity, so the force should be F > -mg. Since the upward force and gravity work in opposite direction you can disregard the mass of the object (they cancel: F(gravity) = F(upward) => mg = -m(g+x)) . Consequently the object's mass is irrelevant.
How much force is needed to accelerate a 1-kilogram toy car at rate of 2 meters per second per second?
-1
What force would be needed to accelerate a boulder having a mass of 1800 kg by 3 meters per second per second?
5400 N
How much force is needed to accelerate an 1800 kg truck 4 meters per second?
Force = mass * acceleration and acceleration is in units of meters per second squared. I will assume you mean this. m/s2 Force = (1800 kg)(4 m/s2) = 7200 Newtons ----------------------
How much force is needed to accelerate a 1 kilogram car at a rate of 2 meters per second per second?
Force = mass times acceleration F = 1 x 2 = 2 Newtons
How much force is needed to accelerate a 1000 kilogram car at a ate of 3 meters per second per second?
The force needed can be calculated using Newton's second law, F = m * a, where F is the force, m is the mass of the car (1000 kg), and a is the acceleration (3 m/s^2). Therefore, the force needed would be 3000 Newtons.
What force is needed to move a 3000 kg truck at a rate of 2 meters per second squared?
Force = mass * acceleration Force = (3000 kg)*(2 m/s^2) = 6000 Newtons ---------------------- ( that is 6000 times the force needed to push in a doorbell, on average )
How much force is needed to accelerate a 2000 kg car at a rate of 6 meters per second square?
Force = mass * accelerationForce = (2000 kg)(6 m/s2)= 12,000 Newtons of force=================
How much force is needed to cause a 15 kilogram bicycle to accelerate at rate of 10 meters per second per second?
To calculate the force needed to accelerate a 15-kilogram bicycle at a rate of 10 meters per second squared, you can use Newton's second law of motion, which states that force equals mass times acceleration (F = m × a). Here, the mass (m) is 15 kg and the acceleration (a) is 10 m/s². Therefore, the force required is F = 15 kg × 10 m/s² = 150 Newtons.
