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There's far too little information in the question to formulate any reasonable answer.
The question could cover a myriad of sundry different situations. For example:
-- If you double the force you're applying to a brick wall, nothing happens to any
distance you might be interested in.
-- If you double the force you apply to a Bowling ball in space, then its acceleration
doubles, and the distance it travels in any reference time period quadruples.
-- If you double the force you're applying backwards to the front bumper of a car
that's coasting forward, then its acceleration also doubles, but the distance it travels
in any reference time period decreases by 75%, at least until it stops.
-- If you double the tangential force applied to an object that's in orbit around the
sun, then depending on what portion of its orbit it happens to be in at the moment,
either the major or minor axis of its orbit begins to grow faster, and the distance it
travels during each orbital period increases in a way that can't be predicted without
a lot more information.
What else can I help you with?
Is it possible for an objects weight to change while its mass remains constant explain?
Yes, an object's weight can change even if its mass remains constant. This happens if it moves to a place with different gravity. An object on the Moon would weigh only one sixth of what it did on Earth.
What is constant about an object in orbit?
An object in orbit is constantly accelerating towards the center of the body it is orbiting due to gravity. The speed of the object remains relatively constant, but its direction of motion is continually changing as it orbits around the central body. The shape and size of the orbit also remain constant if there are no external forces acting on the object.
While an object near the earths surface is in free fall its mass increases?
No, the mass of an object does not increase while it is in free fall near the Earth's surface. The object's mass remains constant regardless of its motion or position.
What force pull an object away from the center of a curved path?
Inertia is the "force" that causes an object in a curved path to pull away from the center. Inertia is actually the tendency of anything with mass to resist a change in motion. In other words, an object at rest will not move because of inertia, unless it is acted on by an unbalanced force, and an object in motion will continue to travel at a constant speed in a straight line unless acted on by an unbalanced force. An object traveling in a circular path pulls away from the center because inertia tries to keep the object traveling in a straight line.
An object weighs 300N on Earth and 50N on the moon Does the object also have less inertia on the moon?
No, the object's inertia remains the same on the moon as it is on Earth, despite weighing less due to the moon's lower gravity. Inertia is an object's resistance to changes in its motion, determined by its mass, which remains constant regardless of the gravitational force acting upon it.
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.
What change occurs to the mass of an object when an unbalanced force is applied to it?
There will by no change in the mass, which is constant, but the unbalanced force will cause the object to accelerate. Acceleration can be in a positive direction or a negative direction ("deceleration"), or it can be circular, in which the acceleration changes constantly, even if the velocity remains constant.
What happens when forces are balanced and unbalanced?
When forces are balanced, the object remains at rest or continues to move at a constant velocity. When forces are unbalanced, there is a net force acting on the object, causing it to accelerate in the direction of the greater force.
Does mass change when an unbalanced force acts upon an object?
Yes , but is negligeble in case of bigger object
If the mass remains constant what happens to the acceleration of an object is the unbalanced force on it is tripled?
If the mass of the object remains constant and the unbalanced force on it is tripled, the acceleration of the object will also triple. According to Newton's second law of motion (F=ma), acceleration is directly proportional to the force applied, so increasing the force by three times will result in the acceleration being three times greater.
How does an unbalanced force affect a moving object at a constant velocity?
If the group of forces on an object is unbalanced, then the object can't have constant velocity. Its speed or the direction of its motion must change.
Do balanced or unbalanced forces cause a moving object to continue moving at a constant speed?
A balanced force will not cause a moving object to change its constant speed. It's an unbalanced force that would either speed up or slow down the moving object.
What will happen to an object that has unbalanced force acting on it?
If an object has an unbalanced force acting on it, it will accelerate in the direction of the greater force. The object will experience a change in velocity and will continue to accelerate as long as the force remains unbalanced.
Does unbalanced forces maintain motion at constant velocity?
No. If the forces on an object are unbalanced, that means their sum is not zero, and there is a net force on the object. Since there is a net force on it, the object is accelerated, which is another way of saying that its velocity changes.
If the speed of an object does not changed then the object is traveling at a?
If speed does not change then the object is moving with constant speed. when object moves in a circle its speed does not remains constant. Speed of object remains constant only if it moves along linear path.
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.
How would doubling the mass of an object change the object's potential energy?
Doubling the mass of an object would double its potential energy as long as the height or position of the object remains constant. Potential energy is directly proportional to mass when height is a constant factor.
