Must be unbalanced. Otherwise, the moon would be moving at constant speed in a straight line.
Newton concluded that gravity is the unbalanced force that causes the Moon to orbit the Earth. He demonstrated that the gravitational attraction between the Earth and the Moon provides the necessary centripetal force to keep the Moon in its circular path. This interaction explains not only the Moon's orbit but also the orbits of other celestial bodies.
The term for when the gravitational forces on an object in space are balanced is "gravitational equilibrium." This occurs when the gravitational force pulling inward is exactly counteracted by an outward force, such as pressure from internal fusion reactions in stars.
When the gravitational forces of the Sun and the Moon combine, it results in tidal forces on Earth. These tidal forces cause the ocean water to bulge out towards the Sun and the Moon, creating high and low tides. The Sun and Moon's gravitational forces work together to influence the Earth's tides in a complex way.
Yes, the forces between Earth and the Moon follow Newton's third law. The Earth exerts a gravitational force on the Moon, and in return, the Moon exerts an equal but opposite gravitational force on the Earth.
Earth's gravity forces the moon into an orbit
Unbalanced forces is when the forces are 0N or more. Balanced forces are 0.
balanced
If the penny isn't accelerating in some way, the forces are balanced. If it is, then they're unbalanced.
Balanced: the vector sum of all forces on an object is zero. Unbalanced: this sum it is not zero.
It it called balanced forces.
Both balanced and unbalanced forces can cause an object to move; however, balanced forces result in no change in an object's motion, while unbalanced forces cause an object to accelerate or decelerate.
The forces on the baseball are balanced when it's on the ground or on the shelf in the clubhouse, and unbalanced at all other times.
A change in an object's motion can be caused by both balanced and unbalanced forces. Balanced forces result in no change in motion, while unbalanced forces cause acceleration or deceleration in the object's motion.
I'm unable to display pictures, but I can describe the difference between balanced and unbalanced forces. Balanced forces are equal in size and opposite in direction, resulting in no change in motion. Unbalanced forces are unequal in size or not in opposite directions, causing an object to accelerate in the direction of the stronger force.
Yes, both balanced and unbalanced forces have direction. Balanced forces have equal magnitude and opposite directions, resulting in no overall change in an object's motion. Unbalanced forces have unequal magnitudes or directions, causing changes in an object's motion.
The motion in a body depends on the the balanced or unbalanced forces acting on it. If the sum of the forces is 0 then it is a balanced force and produces no motion if the sum of the forces isn't 0 then it is unbalanced force. The body will move in the direction in which the force is applied. That's about it
* 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.