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I suppose you mean "inertia". That is the tendency of an object to remain at rest if it is resting, or to keep moving (at a constant velocity) if it is moving.
Assuming constant coefficient of kinetic friction, and ignoring air resistance and relativistic effects,acceleration is proportional to net force.Increasing magnitude of net force by a factor of 7.6 causes magnitude of accelerationto increase by a factor of 7.6.
hedtrdutfydfufuf
African or European? Well, Suppose it was two swallows?
Let us suppose that the displacement is given by, x = kt2 , where k is constant of proportionality. Therefore, velocity of the body, v = dx/dt = d(kt2)/dt = 2kt Since, velocity depends on time ,the body is not moving with uniform velocity.... Again, acceleration of the body, a = dv/dt = d(2kt)/dt = 2k As the acceleration is independent of time , the body is moving with uniform acceleration..
100 N===========================Answer #2:That depends on the direction of the pulling force.The horizontal component of the pulling force must be 100 N.So the more steeply the rope angles upward, the harder you'dhave to pull on it in order to create a 100N horizontal component.
I suppose you mean "inertia". That is the tendency of an object to remain at rest if it is resting, or to keep moving (at a constant velocity) if it is moving.
Assuming constant coefficient of kinetic friction, and ignoring air resistance and relativistic effects,acceleration is proportional to net force.Increasing magnitude of net force by a factor of 7.6 causes magnitude of accelerationto increase by a factor of 7.6.
velocity is nothing but speed of a body in the given direction. suppose if body is moving with constant velocity then VT graph will be parallel to the X -axis, if not then the VT graph is not parallel to the X-axis it means then object is moving with different velocity or it has its dierection or both velocity and aswell as direction.
Yes, its suppose to be ft and smooth, not any friction.
Generally, the velocity as it is squared, but I suppose if you had some titanic mass moving at a very slow velocity then it could be the mass.
If velocity is km/hr and time is in hours then acceleration will be in km/hr2
To maintain a unified look, I suppose.
I suppose that it is a part of friction between two continental plates.
hedtrdutfydfufuf
African or European? Well, Suppose it was two swallows?
Let us suppose that the displacement is given by, x = kt2 , where k is constant of proportionality. Therefore, velocity of the body, v = dx/dt = d(kt2)/dt = 2kt Since, velocity depends on time ,the body is not moving with uniform velocity.... Again, acceleration of the body, a = dv/dt = d(2kt)/dt = 2k As the acceleration is independent of time , the body is moving with uniform acceleration..