Wiki User
β 13y agoF = M a
= (300) x (15)
= 4,500 newtons
Wiki User
β 13y ago-1
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
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 ----------------------
Force = mass * accelerationForce = (2000 kg)(6 m/s2)= 12,000 Newtons of force=================
You can use Newton's Second Law here: force = mass x acceleration. Your units are in SI, so you don't need any conversion. Answer will be in newtons.
-1
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
Force = mass times acceleration F = 1 x 2 = 2 Newtons
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 ----------------------
Force = mass * accelerationForce = (2000 kg)(6 m/s2)= 12,000 Newtons of force=================
Force = Mass* Acceleration = 66 Kg * 2 m/second = 132 Kg meters per second per second = 132 Newtons.
You can use Newton's Second Law here: force = mass x acceleration. Your units are in SI, so you don't need any conversion. Answer will be in newtons.
Force = Mass * Acceleration = 1 * 2 = 2 Newtons
The force required to accelerate the motorcycle can be calculated using Newton's second law, which states that force equals mass times acceleration. In this case, the force needed would be 1250 N (250 kg * 5 m/s^2).
F = ma 12000kg X 4 m/s squared 48000 Newtons.
You need two forces, which you simply add together: 1) The force required simply to support the weight. Multiply the mass times the gravity. 2) The force required to accelerate it. Find this force with Newton's Second Law. Then just add the two forces together.
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.