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What else can I help you with?
When an objects motion changes you know that the forces acting on it are?
Not balanced. The net force acting on the object is not zero.
When an object is at rest what are the forces acting on it?
You never know. The only thing you know about the forces on an object that's not accelerating is: They all add up to zero, and their effect on the object is the same as if no forces at all were acting on it. That's the same as saying that all the forces on the object are 'balanced'.
What term best describes the forces acting on an object with the net force of zero?
An object at rest, or an object with a constant velocity are the two possible states of an object with zero net force. An object with zero acceleration has zero net force. There many be several forces acting on the object, such as the force of gravity and the normal force of the ground. Even though an object sitting on the ground has two forces acting on it (gravity, and the normal force) the object does not accelerate because these forces are equal and opposite. An object with zero net force has all forces acting on it equally balanced and cancelling out
What do you know about the forces acting on an object that is moving at a constant velocity?
When an object is moving at a constant velocity, the forces acting on it are balanced. This means that the net force on the object is zero, which allows it to continue moving at a constant speed in a straight line. The forces acting on the object may include friction, air resistance, and any applied forces.
When a pair of balanced forces acts on an object what happen to the net force?
If the forces oppose each other then nothing will happen, if the forces are acting in the same direction then they would actually be one force, equal to the sum of the two forces, if the forces are oblique then more advanced vectors would come into play... the ones that i know well enough to use but not teach.
When an objects motion changes you know that the forces acting on it are?
Not balanced. The net force acting on the object is not zero.
When an object is at rest what are the forces acting on it?
You never know. The only thing you know about the forces on an object that's not accelerating is: They all add up to zero, and their effect on the object is the same as if no forces at all were acting on it. That's the same as saying that all the forces on the object are 'balanced'.
What term best describes the forces acting on an object with the net force of zero?
An object at rest, or an object with a constant velocity are the two possible states of an object with zero net force. An object with zero acceleration has zero net force. There many be several forces acting on the object, such as the force of gravity and the normal force of the ground. Even though an object sitting on the ground has two forces acting on it (gravity, and the normal force) the object does not accelerate because these forces are equal and opposite. An object with zero net force has all forces acting on it equally balanced and cancelling out
What do you know about the forces acting on an object that is moving at a constant velocity?
When an object is moving at a constant velocity, the forces acting on it are balanced. This means that the net force on the object is zero, which allows it to continue moving at a constant speed in a straight line. The forces acting on the object may include friction, air resistance, and any applied forces.
How can you tell if a force is balanced or unbalanced by looking at it?
2 Forces are unbalanced when an object that is not moving starts moving or changes speed or direction. Balanced forces are the opposite they are where an object that is not moving stays still or an object that is moving stays at a constant pace.
How do you find out if a force is balanced or unbalanced?
Its easy....To balance force you need to apply an equivalent force in the opposite direction....Example:If a force of 20N acts on a body along the North, you should apply 20N along the south......simple.......
How do you know the forces acting on an object at rest are balanced?
Its been awhile since I've done physics so correct me if im wrong. I believe you have the downward force of gravity (obviously). And u also have the upward force of the ground (confusing i know but i think i remember this as true. Its what keeps the car from going underground). Like i said, it has been awhile since I've done physics so I could be way wrong.
How do balanced and unbalanced forces affect the motion of an object?
Objects move according to their net force, or the total amount of force acting on them. Balanced forces are just that, balanced. An object with balanced forces will not move because the opposing forces will cancel each other out. However, if there are unbalanced forces, the object will move in accordance with the force that is greater. When moving though, there is always friction. Whether you be underwater, on the ground, or in the air there is always friction on the Earth. (Besides vacuums, of course.) Force is equal to mass x acceleration. With that you can find the forces of the object if you know its mass and acceleration.
How do you know if the net forces on an object are balanced or not?
If the net forces on an object are balanced, the object will remain at rest or continue to move at a constant velocity. You can determine if forces are balanced by calculating the sum of the forces in each direction (e.g., horizontal and vertical) and comparing them. If the sum of the forces in each direction is zero, the forces are balanced.
If the net force On an an object is zero what do you know about all of the forces acting on the object?
Net force is a combination of all the foces acting on an object.If two forces are acting in the same direction you add the forces to calculate the net force
What occurs in an objects position when acted on by an unbalanced force?
First of all, there's no such thing as an unbalanced force. A group of forces maybe balanced or unbalanced, but the forces themselves aren't.An unbalanced group of forces acting on an object causes the object's velocityto change. That means the speed or direction of its motion changes. It doesn'ttell you anything about the object's position. In order to figure that out, you'dhave to know what its speed and direction were before the unbalanced groupof forces began acting on it, and you'd also need to know the object's mass.
If an object is moving at a constant speed what do we know about the forces acting on the object?
Not much, really. If the object's direction is changing, then the velocity changes, and there are forces acting on it. The only thing we can say is that the net force acting on the object is either zero, or it is perpendicular to the movement.If the VELOCITY doesn't change, then the net force (the sum of the forces) is zero.
