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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.
If An object will accelerate in the direction of the net force balanced force normal forces?
If the object accelerates, that means the forces are NOT balanced.
What type of force accelerates an object?
It depends what the situation is. If an object is falling, the weight of the object, which is determined by the object's mass and the gravity, is the force causing it to accelerate. If you're talking about a box being pushed, you could have a person pushing it, which causes it to accelerate, but you also must take into account the force of friction combatting the applied force.
What forces have to be balanced for terminal velocity to be reached by an object?
For an object in freefall, terminal velocity is reached when the drag force becomes equal and opposite to the force of gravity. This creates a net force of 0, resulting in no further acceleration.
What is the net force acting on a falling object when it reaches terminal velocity?
An object falling at terminal velocity is moving at constant speed (that's what terminal velocity means) and we will assume it is not changing direction (i.e. it is falling straight down; in reality it is more likely to be bobbing and weaving on the wind.) Constant speed and direction is another way of saying constant velocity. when an object is acted upon by a net force, it's velocity changes. So, since we know that the velocity is not changing, there is no force.
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.
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 is it called when gravity and air resistance of a falling object are balanced?
When gravity and air resistance of a falling object are balanced, it is called terminal velocity. At this point, the object falls at a constant speed because the force of gravity pulling it down is equal to the force of air resistance pushing back against it.
What is The point at which air resistance and gravity are balanced so that a falling object no longer accelerates?
Terminal velocity is the point at which air resistance and gravity are balanced so that a falling object no longer accelerates. At this point, the object falls at a constant speed because the force of air resistance is equal to the force of gravity acting on the object.
What do balanced forces acting on an object really cause the object to do?
If an object is falling, and the gravitational force is the same as the air resistance acting against the object it is called terminal speed, the object does not speed up, nor slow down A balanced group of forces has the same effect on an object as no force at all.
An object is falling at its what if it falls at a constant velocity?
If an object is falling at a constant velocity, then the net force acting on it is zero. This means that the force of gravity pulling the object downward is balanced by an equal and opposite force. The object will continue to fall at a steady speed without accelerating.
When a falling object had stopped accelerating it has reached its?
When a falling object has stopped accelerating, it has reached its terminal velocity. At this point, the force of air resistance acting on the object is equal to the force of gravity pulling it downward, resulting in a balanced force and a constant velocity.
How does force and gravity effect a falling object?
As an object falls, gravity acts as an external force pulling it downward. This force causes the object to accelerate as it falls towards the Earth's surface. The object's speed increases until it reaches terminal velocity, when the gravitational force pulling it down is balanced by the air resistance pushing against it.
Is the greatest velocity a falling object reaches is it called momentum?
The greatest velocity a falling object reaches is called the terminal velocity.For an object falling at the terminal velocity, the weight force of the objectis balanced by the drag force and buoyant force on the object.W + FDRAG + FBUOYANT = FNET = 0.0
Are Terminal velocities balanced or unbalanced?
Terminal velocities are balanced forces. At terminal velocity, the upward force of air resistance acting on an object falling through the air is equal in magnitude to the downward force of gravity, resulting in an equilibrium where the object falls at a constant speed.
What is the net force on an object when the force on that object are balanced?
Zero.
What causes a falling object to stop accelerating?
A falling object stops accelerating when it reaches its terminal velocity, which is the maximum speed it can reach due to air resistance. At this point, the force of gravity pulling the object downwards is balanced by the force of air resistance pushing upwards, resulting in a constant velocity.
