4 meters per second squared
Force=mass*acceleration 80N=10kg*acceleration 80N/10kg=acceleration 8m/s2=acceleration The acceleration is 8m/s2.
98.07 newtons (Force = mass x acceleration)
It would weigh 10kg.
That would depend on the volume (density) of the 10kg object.
10kg
Force=mass*acceleration 80N=10kg*acceleration 80N/10kg=acceleration 8m/s2=acceleration The acceleration is 8m/s2.
The acceleration is 9.8 m/s2.
F=mass * acceleration 60kg m/s^2=10kg * acceleration 6m/s^2 = acceleration
Acceleration is not determined by mass unless an amount of force is specified. Acceleration is the change in velocity, which is shown as the 2nd derivative of a graph and measured in Newtons, and the mass of an object doesn't come into play unless you are talking about force exerted. However, if we have a given force (say 50 N, which is written out 50kgm/s2) and a 5 Kg mass, we will have an acceleration of 50Kgm/s2 divided by 5kg= 10m/s2 ,but if we have a 10Kg mass, we will have an acceleration of 50Kgm/s2 divided by 10kg= 5m/s2. So, yes, with a given force, a larger mass will undergo less acceleration.
98.07 newtons (Force = mass x acceleration)
Force = mass * acceleration ( acceleration's unit is m/s2 ) Force = (10 kg)(4 m/s2) = 40 Newtons ==========
F = ma, 1N = 1kg(m/s^2) 65 N = 10kg * a a = 65N / 10kg a = 6.5 m/s^2
20 N is applied to 10 kg mass. 20 N/10 = 2. The acceleration of mass is 2.
F = M A A = F / M = (5) / (10) = 1/2 meter per second2
The resulting acceleration is 2 meters per second squared. Acceleration = F/m
Force = Mass x Acceleration Force = 5 x 2 Force = 10N (Newtons)
F = ma(60N) = (10kg)a a = 60N / 10kga = 6 N / kga = 6m/s^2