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When an object is falling at a constant speed the two forces that must be equal in size but opposite in?
When an object is falling at a constant speed, the two forces that must be equal in size but opposite in direction are the gravitational force pulling the object downward and the air resistance force pushing upward. At this point, the forces are balanced, resulting in a constant speed descent known as terminal velocity.
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What are the forces on a falling object are balanced and the object falls with constant speed?
The forces are balanced because they are falling at a constant speed. According to Newtons first law of motion an object will keep moving unless an unbalanced or net force acts upon it. If we may step in here for the novel purpose of answering the question . . . The balanced forces on an object that is falling with constant speed are typically the force of gravity (the object's 'weight') and the equal and opposite force of air resistance.
Is it false that balance forces are equal forces acting on an object in opposite directions?
Yes, it is false that balanced forces are equal forces acting on an object in opposite directions. Balanced forces are equal in magnitude and opposite in direction, resulting in no overall change in an object's motion. When forces are balanced, the object will either remain at rest or move at a constant velocity.
If forces on an object are equal and opposite then what are they called?
They are called COUPLE.if forces on an object are equal and opposite...
When the upward and downward forces on a falling object are equal the object reaches?
When the upward and downward forces on a falling object are equal, the object reaches terminal velocity. At terminal velocity, the object stops accelerating and falls at a constant speed.
What forces are acting on an object when it is falling at terminal velocity?
When an object is falling at terminal velocity, the forces of gravity pulling it downward and air resistance pushing upward are balanced. This results in a constant velocity for the object as it falls.
What kind of forces on a falling object are balanced and the object falls with constant speed?
The forces are balanced because they are falling at a constant speed. According to Newtons first law of motion an object will keep moving unless an unbalanced or net force acts upon it. If we may step in here for the novel purpose of answering the question . . . The balanced forces on an object that is falling with constant speed are typically the force of gravity (the object's 'weight') and the equal and opposite force of air resistance.
What are the forces on a falling object are balanced and the object falls with constant speed?
The forces are balanced because they are falling at a constant speed. According to Newtons first law of motion an object will keep moving unless an unbalanced or net force acts upon it. If we may step in here for the novel purpose of answering the question . . . The balanced forces on an object that is falling with constant speed are typically the force of gravity (the object's 'weight') and the equal and opposite force of air resistance.
Is it false that balance forces are equal forces acting on an object in opposite directions?
Yes, it is false that balanced forces are equal forces acting on an object in opposite directions. Balanced forces are equal in magnitude and opposite in direction, resulting in no overall change in an object's motion. When forces are balanced, the object will either remain at rest or move at a constant velocity.
If forces on an object are equal and opposite then what are they called?
They are called COUPLE.if forces on an object are equal and opposite...
When the upward and downward forces on a falling object are equal the object reaches?
When the upward and downward forces on a falling object are equal, the object reaches terminal velocity. At terminal velocity, the object stops accelerating and falls at a constant speed.
What forces are acting on an object when it is falling at terminal velocity?
When an object is falling at terminal velocity, the forces of gravity pulling it downward and air resistance pushing upward are balanced. This results in a constant velocity for the object as it falls.
What are two different forces acting in opposite directions called?
Two forces acting in opposite directions are called balanced forces. When balanced forces act on an object, the object's motion remains constant or remains at rest.
What types of forces determine whether an object remains at rest or moves at a constant velocity?
The types of forces that determine whether an object remains at rest or moves at a constant velocity are balanced forces. If the forces acting on an object are equal in size and opposite in direction, the object will remain at rest. If the forces are balanced and in the same direction, the object will move at a constant velocity.
If an object is moving at a constant speed are the forces on it balanced or unbalanced?
If an object is moving at a constant speed, the forces acting on it are balanced. This means that the forces pushing in one direction are equal to the forces pushing in the opposite direction, resulting in no change in the object's speed or direction.
What are equal forces acting on an object in opposite directions?
When equal forces act on an object in opposite directions, they create a state of balance known as equilibrium. This means that the object will not accelerate in any particular direction, but remain stationary or move at a constant velocity.
What happen when opposite forces acting on an object are balanced?
Assuming this is a physics question, when all the forces acting on an object are balanced, the object is in equilibrium. For example, when a car is at a constant velocity, with no acceleration, all the forces are equal.
What happens when two forces act in opposite directions of an object?
When two forces act in opposite directions on an object, they create a net force that is the difference between the two forces. The object will accelerate in the direction of the greater force. If the two forces are equal in magnitude, the object will remain stationary or continue moving at a constant velocity.
