A steady increase in force will result in a steady acceleration, however if the
steady force stays the same then the speed will obviously remain the same.
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HONK ! Beulah the Buzzer is agitated and rankled by that answer, mainly because
each of its statements is individually and so thoroughly wrong.
The formula that relates force and acceleration could hardly be any simpler . . .
F = M ATo answer this question, let's first divide both sides by M . . . A = F/M .and there you have it. Acceleration is equal to (Force) divided by (Mass).As long as the force and the mass don't change, acceleration is a constant.
In the words of the question, "steady force" causes a "steady acceleration".
net force.
Every force causes acceleration, if it's not opposed and canceled by other forces.
The Newton is the unit for force. An unbalanced force is required to cause acceleration, which is a change in velocity.
Any unbalanced force will cause an acceleration.
Not necessarily so. Negative (deceleration) could be growing or decreasing in magnitude. The cause is going to be the Force that is acting on the system. If the Force is increasing, the acceleration will be also.
net force.
ANY net force will cause an acceleration. If the force is reduced, there will be less acceleration, though.
The term "steady speed" indicates a constant velocity. This implies that there is no net acceleration, and thus no net force. Any net force on a moving object will cause a change in velocity, as per Newton's First and Second Laws.
Every force causes acceleration, if it's not opposed and canceled by other forces.
The Newton is the unit for force. An unbalanced force is required to cause acceleration, which is a change in velocity.
A force will cause motion, specifically it causes acceleration, whenever it is unbalanced by an opposing force, such as friction.
Gravity
It will cause acceleration in the direction of the net force.
Any unbalanced force will cause an acceleration.
Since there is zero acceleration, the net force is also zero.
force =mass x acceleration therefore mass = force /acceleration and acceleration = force/mass
Just the opposite. It will cause the acceleration to drop by 50%.