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# This is a depiction of 2 forces acting on a puck (top view). Which direction would a 3rd force have to be to balance the forces?

Updated: 9/26/2023 Wiki User

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Q: This is a depiction of 2 forces acting on a puck (top view). Which direction would a 3rd force have to be to balance the forces?
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Still have questions?  Related questions

### What is a state in which all forces acting on an object are in balance?

Equilibrium is a state in which all forces acting on an object are in balance.

### How two forces are added if they are not concurrent but are acting in same direction?

how two forces are added if they are not concurrent but are acting in same direction

### What is difference between like and unlike parallel forces?

Forces which are parallel and acting in same direction are called like parallel forces. Forces which are parallel and acting in opposite direction are called unlike parallel forces.

### Are 2 forces going in the same direction balanced?

No, they are not. The forces are balanced only when forces of equal magnitude are acting in the opposite direction.

### How do you find the net force when the forces are acting in the same direction?

This is the simplest case of vector addition. If two forces are acting in the same direction, then you can just add them, to get the net force.

### How do you compute the net force of forces acting in the same direction?

In the same direction, you simply add them

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### Will two or more forces acting at different angles be placed in the same quadrant or in the adjacent quadrant and still be in equilibrium?

if the two forces are acting in an opposit direction they can not be in equilibrum.but if they acting in thesame direction from different angles they can be in equilibrum.

### Are the forces acting on the weight lifter and the weights balanced or unbalanced?

the forces acting on the weight lifter and the weights are balanced because the forces are not moving or changing direction.

### Are there any forces acting on you in the direction you are moving?

Maybe, maybe not. Forces don't happen because you're moving ... forces are what cause you to move. If there are no forces acting on you, then you keep moving whichever way you're moving, and your speed or direction don't change. If there are forces acting on you, then your speed and/or direction can change. If the force is in the same direction that you're already moving, you'll move faster (accelerate). If the force is in the direction opposite to the direction you're moving, then your speed will decrease. Does any of this sound surprising ???

Un eatmrth

equilibrium