force?
No.
In free space or on a frictionless surface, it takes no force to move something. Where there is friction, the ratio of (force necessary to start it moving horizontally)/(the object's weight) is the coefficient of static friction on the horizontal surface.
Due to surface tension
Aren't you late for sixth period?
Martian gravity is only 38% of the Earth's gravity.
No.
9.8 meters (32.2 feet) per second2 horizontally, provided the exercise is performed on or near the Earth.
In free space or on a frictionless surface, it takes no force to move something. Where there is friction, the ratio of (force necessary to start it moving horizontally)/(the object's weight) is the coefficient of static friction on the horizontal surface.
yes
It depends on the surface on which the object is moving, and also any other forces - such as gravity.
If the surface is smooth then it is almost frictionless. Hence the body will continue to move with constant velocity. However the object continues in a circular path and the weight is thus the centripetal force. It is assumed that the surface is very large)
Any mass raised above the earth's surface has potential energy due to the work done in raising it against gravity
The surface gravity on the moon is approximately one sixth the surface gravity of Earth.
The pressure of gravity on a surface is(total force of gravity on the surface) divided by (area of the surface)
A surface current is a wind-powered current that moves water along horizontally. Because the wind is on the surface, a surface current only forms along the first few hundred feet of ocean water.
The force necessary to move the car would have to equal the force of inertia on the car: F = m * a Numerically: F = 1051 * 1.24 = 1303.24 N
The Sun's gravity, at its surface, is about 28 times Earth's surface gravity.