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Do balanced forces make objects move?
Yes but they will not make the object start, they will only work once the object is going and will keep the object going the same speed from when the unbalenced forces stop.
If work is applied are there 2 forces applied?
No. Work simply means that an object moved as a force was applied.
How do forces acting on an object?
If forces on an object are unbalanced, the object will accelerate or decelerate. If forces on an object are balanced, the object will stay still or keep moving with the same velocity.
When several forces act on an object and the object does not move can the forces be balanced?
If the object doesn't move, the forces HAVE TO be balanced. There is no other way.
Balanced forces acting on an object do not change the object's what?
Balanced forces acting on an object do not change the object's position.
Do balanced forces make objects move?
Yes but they will not make the object start, they will only work once the object is going and will keep the object going the same speed from when the unbalenced forces stop.
Is force the capacity to do work?
No. Energy is what allows you to work. Force, however, is a push or pull or something that tries to make something else move. When forces are balanced, an object stays where it is, when the forces are unbalanced, the object moves.
If work is applied are there 2 forces applied?
No. Work simply means that an object moved as a force was applied.
How do forces acting on an object?
If forces on an object are unbalanced, the object will accelerate or decelerate. If forces on an object are balanced, the object will stay still or keep moving with the same velocity.
How do balanced forces and unbalanced forces differ?
* Balanced: The vector sum of all forces on an object is zero. The object does not accelerate.* Unbalanced: The vector sum of all forces on an object is NOT zero, the object DOES accelerate.
When several forces act on an object and the object does not move can the forces be balanced?
If the object doesn't move, the forces HAVE TO be balanced. There is no other way.
Balanced forces acting on an object do not change the object's what?
Balanced forces acting on an object do not change the object's position.
If all forces are equal and opposite how does anything accelerate?
Because NOT all forces are equal and opposite. By Newton's Third Law, if object A attracts object B, then object B also attracts object A - with an equal but opposite force. But those forces act on DIFFERENT objects! The forces on object A, and on object B, may be unbalanced!Because NOT all forces are equal and opposite. By Newton's Third Law, if object A attracts object B, then object B also attracts object A - with an equal but opposite force. But those forces act on DIFFERENT objects! The forces on object A, and on object B, may be unbalanced!Because NOT all forces are equal and opposite. By Newton's Third Law, if object A attracts object B, then object B also attracts object A - with an equal but opposite force. But those forces act on DIFFERENT objects! The forces on object A, and on object B, may be unbalanced!Because NOT all forces are equal and opposite. By Newton's Third Law, if object A attracts object B, then object B also attracts object A - with an equal but opposite force. But those forces act on DIFFERENT objects! The forces on object A, and on object B, may be unbalanced!
What forces are at work on a floating object are they balanced?
Remember Newton's Second Law! If the object is not accelerating, then of course they are balanced.The main forces are: 1) gravity pulling downward, the fluid in which it is floating pushing upward.
Compare how balanced and unbalanced forces affect an object at rest?
balanced forces don't move an object, but unbalanced forces on an object do move
When no unbalanced forces act on an object the object can have no?
If forces on an object are balanced, the object will not accelerate - i.e., its velocity won't change.
How can forces acting on an object be unbalanced?
If the sum of the forces on an object do not equal zero, then the object will experience acceleration.
