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A box experiences a net force of 41N while it is being lifted.what is the acceleration of the box?
The acceleration would also be trippled when the force is tippled. the relevant equation is: F=ma, where F= force m=mass a=acceleration
The formula of Newton's second law is F=ma, for force( F) equals the mass (m) times the acceleration (a).
Work is the product of force and displacement. While the displacement is known to be at 1.5 meters, the force is not known. Force is a product of mass and acceleration. While mass is known to be 6kg, the amount of acceleration is not known. Because acceleration is not known, force cannot be found, thus the amount of work is also unknown.
Since Force = Mass x Acceleration If force is held constant and one varies the mass then the acceleration will vary according to the equation: Acceleration = Force / Mass As a result, the acceleration is inversely proportional to the mass of the object. In other words, if one increases the mass of the object, the acceleration of the object will decrease proportionally. Similarly, if one decreases the mass of the object, the acceleration will increase proportionally.
It depends on the amount of force force=distance*acceleration
F=m.a , a=F/m; acceleration is directly proportional with force. acceleration increase while force increase.
A box experiences a net force of 41N while it is being lifted.what is the acceleration of the box?
The acceleration would also be trippled when the force is tippled. the relevant equation is: F=ma, where F= force m=mass a=acceleration
The acceleration would also be trippled when the force is tippled. the relevant equation is: F=ma, where F= force m=mass a=acceleration
displacement
The formula of Newton's second law is F=ma, for force( F) equals the mass (m) times the acceleration (a).
No it is not because its direction is constantly changing. It is not a constant force. Force has direction as well as magintude and while it magnitude is constant its direction is not.
Gravity, force, and acceleration.
It would depend on what force is driving the acceleration. If that force is gravity, then acceleration is constant irrespective of variations in mass. All else being equal and presuming the acceleration is by the same exerted force on both the larger and smaller object, the larger object would experience 1/3 the acceleration. (The formula for determining the force is F = ma , the mass times the acceleration. For the same F, and m2 is 3m, then a2 must equal a/3. )
Work is the product of force and displacement. While the displacement is known to be at 1.5 meters, the force is not known. Force is a product of mass and acceleration. While mass is known to be 6kg, the amount of acceleration is not known. Because acceleration is not known, force cannot be found, thus the amount of work is also unknown.
Since Force = Mass x Acceleration If force is held constant and one varies the mass then the acceleration will vary according to the equation: Acceleration = Force / Mass As a result, the acceleration is inversely proportional to the mass of the object. In other words, if one increases the mass of the object, the acceleration of the object will decrease proportionally. Similarly, if one decreases the mass of the object, the acceleration will increase proportionally.