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yes, they can balanced if they r in opposite direction n have same magnitude.....
30 N to the right
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Assuming this is a vacuum: Motion would occur only if there is no secondly force acting on the object with the same magnitude(strength) but has the opposite direction to the force you're acting upon this object.
Assuming the forces are acting on the same object, as the angle between them increases from 0 (acting in the same direction) to 180 (acting in opposite directions) the total force acting on the object starts at a maximum and decreses to a minimum at 180 degrees.
Magnitude is a scientific way of saying size or number. The gravitational force is the force (measured by Newtons (N)) acting on an object. On earth, the gravitational force is 9.81 Newtons, this can be commonly rounded to 9.8 or even 10, depending on the accuracy required. In laymen's terms, the magnitude of the gravitational force is simply the strength of gravity acting on an object.
-- the magnitude and direction of the force acting on an object -- the mass of the object being forcefully acted upon
There are two ways to find the distance traveled. One is to measure the distance traveled. The other is to measure the distance raveled within a certain amount of time and then multiply to find how far it will travel in the future.
A force of equal magnitude, acting in the opposite direction.
It is a vector with the same magnitude (size) but acting in the opposite direction.
The upward force acting on an object is the normal force. It is equal in magnitude, but opposite in direction to the object's weight.
Magnitude is 315 N. Direction would be opposite the first force, so they cancel out and leave the body at rest.
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yes, they can balanced if they r in opposite direction n have same magnitude.....
They are equal in magnitude.