Force = mass * acceleration
Force = (3000 kg)*(2 m/s^2)
= 6000 Newtons
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( that is 6000 times the force needed to push in a doorbell, on average )
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 ----------------------
F = m a = (976) (2.5) = 2,440 newtons
There is some confusion here. 500 newtons IS a force. You don't "give a force an acceleration". You can accelerate an object (which has a mass), but not a force.
Newton's Second Law of Motion states that Force equals the product of mass and acceleration. Thus, the force required to accelerate a 200 kg object 15 meters per second squared equals 200*15. This is equivalent to 300 Newtons.
F=ma=70x9.8=686N
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 ----------------------
m/s2 (Meters-Per-Second Squared)
F = m a = (976) (2.5) = 2,440 newtons
There is some confusion here. 500 newtons IS a force. You don't "give a force an acceleration". You can accelerate an object (which has a mass), but not a force.
In physics, the net force is measured in Newton. The formula for net force is given as the mass times the acceleration. The mass is given in kilograms (kg), and the acceleration is measured in meters per second squared. A Newton is equivalent to a kilogram-meters per second squared.
gravity
F = ma, so if mass is constant, you need to double the force to double the acceleration. The answer is 20 N.
0.03 meters per second squared.
0.5 meters per second squared.
Newton's Second Law of Motion states that Force equals the product of mass and acceleration. Thus, the force required to accelerate a 200 kg object 15 meters per second squared equals 200*15. This is equivalent to 300 Newtons.
Just divide the force by the mass. The answer will be in meters per second squared.
Other way to say effort force Force = Kilograms * meters / (second squared) in other words mass times acceleration.