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Two forces acting on a hanging object are tension, which is the force exerted by the string or rope holding the object up, and gravity, which is the force pulling the object downward towards the Earth.

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1y ago

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When 2 forces are acting on an object in the same direction we combine them by?

When two forces are acting on an object in the same direction, we combine them by adding their magnitudes together to find the net force acting on the object.


What are the 2 opposing forces are acting on an object as it floats in a fluid?

The two opposing forces acting on an object as it floats in a fluid are buoyancy (upward force exerted by the fluid on the object) and gravity (downward force exerted by the object's weight). At equilibrium, these forces balance each other, causing the object to float.


When 2 forces are acting on an object in opposite directions we combine them by?

When two forces are acting on an object in opposite directions, we combine them by finding the difference between the magnitudes of the two forces. The direction of the resulting force will be in the direction of the larger force.


What 2 forces are acting on a falling object in the earths atmosphere?

The two main forces acting on a falling object in Earth's atmosphere are gravity, which pulls the object downward, and air resistance (also known as drag), which opposes the object's motion and slows it down as it falls.


What are the 2 forces acting on a sinking object?

The two forces acting on a sinking object are gravity, pulling the object downward, and buoyancy, pushing the object upward. Buoyancy force is caused by the displaced fluid pushing back against the object's weight, resulting in the object sinking, floating, or rising depending on the balance between these forces.

Related Questions

When 2 forces are acting on an object in the same direction we combine them by?

When two forces are acting on an object in the same direction, we combine them by adding their magnitudes together to find the net force acting on the object.


What are the 2 opposing forces are acting on an object as it floats in a fluid?

The two opposing forces acting on an object as it floats in a fluid are buoyancy (upward force exerted by the fluid on the object) and gravity (downward force exerted by the object's weight). At equilibrium, these forces balance each other, causing the object to float.


When 2 forces are acting on an object in opposite directions we combine them by?

When two forces are acting on an object in opposite directions, we combine them by finding the difference between the magnitudes of the two forces. The direction of the resulting force will be in the direction of the larger force.


What 2 forces are acting on a falling object in the earths atmosphere?

The two main forces acting on a falling object in Earth's atmosphere are gravity, which pulls the object downward, and air resistance (also known as drag), which opposes the object's motion and slows it down as it falls.


What are the 2 forces acting on a sinking object?

The two forces acting on a sinking object are gravity, pulling the object downward, and buoyancy, pushing the object upward. Buoyancy force is caused by the displaced fluid pushing back against the object's weight, resulting in the object sinking, floating, or rising depending on the balance between these forces.


If the forces are acting on an object are unbalanced what 2 things can happen?

If the forces are unbalanced on an object, it will experience acceleration in the direction of the greater force. This can result in the object either speeding up, slowing down, or changing direction depending on the direction of the forces.


If an odject is at rest all forces acting on that obkect is?

If an object is at rest 2 forces are still acting on it (if done on a planet) gravity pushing the object down. And the up force which is the force exerted by ground upwards against the object. Gravity being the greater force keeps the object on the ground, but the upforce prevents the object from basically ploughing through the ground.


Can an object be in equilibrium if the object is acted on by two forces that point in mutually perpendicular directions?

Yes, an object can be in equilibrium if it is acted on by two forces that point in mutually perpendicular directions. This is known as mechanical equilibrium, where the vector sum of all the forces acting on the object is zero, and the object does not accelerate.


Are there any unusual ways forces can act in pairs?

Well, apart from two forces acting on the same point, they can act at different points. Thus, even if you have forces of equal magnitude in opposite directions, the object can start to rotate.Thus, there are two conditions for an object to be in equilibrium:1. The sum of all forces is zero.2. The sum of all torques is zero.Torque is the term used for forces that can cause rotation.Well, apart from two forces acting on the same point, they can act at different points. Thus, even if you have forces of equal magnitude in opposite directions, the object can start to rotate.Thus, there are two conditions for an object to be in equilibrium:1. The sum of all forces is zero.2. The sum of all torques is zero.Torque is the term used for forces that can cause rotation.Well, apart from two forces acting on the same point, they can act at different points. Thus, even if you have forces of equal magnitude in opposite directions, the object can start to rotate.Thus, there are two conditions for an object to be in equilibrium:1. The sum of all forces is zero.2. The sum of all torques is zero.Torque is the term used for forces that can cause rotation.Well, apart from two forces acting on the same point, they can act at different points. Thus, even if you have forces of equal magnitude in opposite directions, the object can start to rotate.Thus, there are two conditions for an object to be in equilibrium:1. The sum of all forces is zero.2. The sum of all torques is zero.Torque is the term used for forces that can cause rotation.


How is force acting on a falling object?

The force acting on a falling object is the gravitational force, which pulls the object towards the center of the Earth. This force causes the object to accelerate downwards, leading to its motion. The magnitude of this force is determined by the mass of the object and the acceleration due to gravity.


Are 2 forces going in the same direction balanced?

Yes, if two forces are going in the same direction and have equal magnitude, they are considered balanced. This means that they will cancel each other out, resulting in no net force acting on the object.


What is a 8 letter word that has 2 equal forces pushing an object in different directions called?

The term you are looking for is "equilibrium." In physics, equilibrium describes a state in which all forces acting on an object are balanced, resulting in no net force and the object remains stationary or moving at a constant velocity.