Any unbalanced force will cause an acceleration.
Every force produces acceleration, if it's not canceled by
an equal opposite force applied to the same object.
net or unbalanced force
It is an attractive non-contact force.
An unbalanced force produces acceleration, in accordance with Newton's very basic formula, force equals mass times acceleration.
a constant force.
change in acceleration
Gravity produces acceleration on an object, assuming that no other force acts on the object.
Every force produces acceleration, if it's not canceled byan equal opposite force applied to the same object.
Force = (mass) times (acceleration) Constant force produces constant acceleration.
An unbalanced force produces acceleration, in accordance with Newton's very basic formula, force equals mass times acceleration.
Yes it can, and if less force is needed if you eliminate the possibility of friction. You can find many examples of this, but i think this is an excellent opportunity to devise an experiment and practice your scientific methods.
a constant force.
One that is applied to a mass.
'Acceleration' in that direction results.
If it produces acceleration then it is not balanced. If it doesn't, then it is.
change in acceleration
Gravity produces acceleration on an object, assuming that no other force acts on the object.
It is best expressed by Newton's second law: Force = Mass x acceleration. Thus a force of 1 Newton produces an acceleration of 1 m/sec per second on a mass of 1 kg. A force of 1 poundal produces an acceleration of 1 ft/sec per second on a mass of 1 pound.
Yes. The equation that relates force to acceleration is very simple:F = M A ,orA = F / M .The acceleration is directly proportional to the force, and if the force doesn't change,then the acceleration doesn't change. (' M ' is the mass of the thing that's being'forced' to accelerate.)So constant force produces constant acceleration, and is the only way to do it.
The force on the 1kg body is 0.5 Newton. The acceleration of the 2kg mass with a force of 0.5 Newton will be 0.25m/s^2