Isostasy is the balance between the buoyant force of the lithosphere floating on the denser underlying mantle and the gravitational force pulling the lithosphere downwards.
Isostasy is the balance between the buoyant force of the mantle pushing up on the lithosphere and the gravitational force pulling the lithosphere downward. This balance helps maintain the equilibrium of the Earth's crust.
Two forces may not balance each other if they are acting in different directions or have different magnitudes. When forces are not equal and opposite, they result in acceleration or movement of the object in the direction of the greater force.
The force indicated on the spring balance will be equal to the sum of the two equal forces applied on both ends of the spring balance. This is because the spring balance measures the total force acting on it, regardless of the number of individual forces.
Two pairs of forces that could balance each other are tension and weight in a hanging object, and friction and applied force in an object moving at a constant velocity.
The resultant of two forces is affected by the angle between the forces through vector addition. When the forces are pointing in the same direction (angle is 0 degrees), the resultant will be the sum of the two forces. As the angle between the forces increases, the magnitude of the resultant decreases until at 90 degrees, the forces are perpendicular and the resultant is the square root of the sum of the squares of the two forces.
Isostasy is the balance between the weight of the Earth's lithosphere pushing down and the buoyant force of the underlying asthenosphere pushing up. This balance helps to maintain the overall stability of the Earth's crust.
When two forces are balanced, their vector sum is zero.
Isostasy is the balance between the buoyant force of the mantle pushing up on the lithosphere and the gravitational force pulling the lithosphere downward. This balance helps maintain the equilibrium of the Earth's crust.
Two forces may not balance each other if they are acting in different directions or have different magnitudes. When forces are not equal and opposite, they result in acceleration or movement of the object in the direction of the greater force.
The force indicated on the spring balance will be equal to the sum of the two equal forces applied on both ends of the spring balance. This is because the spring balance measures the total force acting on it, regardless of the number of individual forces.
I THINK balance is a forceNew author. It should be, because balance is two forces pushing each side of a plane which the forces are same
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center forces and gravitational forces
Two events that can upset the balance between gravity and pressure in a nebula are a supernova explosion or the collision of two nebulae. A supernova explosion releases an enormous amount of energy and can disrupt the delicate equilibrium between gravity and pressure. The collision of two nebulae can also disturb the balance by introducing additional gravitational forces and increasing the overall pressure within the system.
The forces will be balance.
Two pairs of forces that could balance each other are tension and weight in a hanging object, and friction and applied force in an object moving at a constant velocity.
The resultant of two forces is affected by the angle between the forces through vector addition. When the forces are pointing in the same direction (angle is 0 degrees), the resultant will be the sum of the two forces. As the angle between the forces increases, the magnitude of the resultant decreases until at 90 degrees, the forces are perpendicular and the resultant is the square root of the sum of the squares of the two forces.