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An object's acceleration is the result of a force being applied to it. When that happens, the magnitude of the resulting acceleration is equal to the force divided by the object's mass, and the direction of the acceleration is in the direction of the force.
The acceleration will be 15m/s2
Acceleration is defined as the change in velocity, and is a result of a force being applied on the object in question. Acceleration will not always result in an object changing direction, but it is capable of it (in the case of centripetal acceleration, all it does is change the direction.) Acceleration is a vector, therefore a direction must always be given when a value is stated.
According to Newton's Second Law, a = F/m. That means that acceleration is caused by a force; that a greater force will result in greater acceleration; and that a larger mass (of the object on which the force acts) will result in less acceleration.
The object will experience acceleration in the direction of the force.
An object's acceleration is the result of a force being applied to it. When that happens, the magnitude of the resulting acceleration is equal to the force divided by the object's mass, and the direction of the acceleration is in the direction of the force.
The result is acceleration of the object ... its speed of motion, or direction of motion, or both, change.
The result is acceleration of the object ... its speed of motion, or direction of motion, or both, change.
The acceleration will be 15m/s2
Acceleration
Acceleration is defined as the change in velocity, and is a result of a force being applied on the object in question. Acceleration will not always result in an object changing direction, but it is capable of it (in the case of centripetal acceleration, all it does is change the direction.) Acceleration is a vector, therefore a direction must always be given when a value is stated.
According to Newton's Second Law, a = F/m. That means that acceleration is caused by a force; that a greater force will result in greater acceleration; and that a larger mass (of the object on which the force acts) will result in less acceleration.
The object is given an acceleration if the force exceeds the force of static friction on the object.
The result is acceleration of the object ... its speed of motion, or direction of motion, or both, change.
The object will experience acceleration in the direction of the force.
No. Only a NET FORCE can result in an acceleration, and thus change the velocity of an object.
-- In a reference book or on-line, look up the acceleration of gravity on the surface of that planet. -- Multiply the mass of the object by the acceleration of gravity in the place where the object is. The result is the object's weight in that place.