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What belongs on the line a parachute uses the force pushing up on a large area of silk to resist the force of .........?
Gravity. A parachute uses the force pushing up on a large area of silk to resist the force of gravity, allowing for a controlled descent and landing.
What are the action and reaction forces on the farcical of parachute when it is deployed?
When a parachute is deployed, the action force is the parachute pushing against the air resistance, creating drag. The reaction force is the air pushing back up on the parachute, providing lift and slowing down the descent of the object attached to the parachute.
What is the force called that makes a parachute go up?
The force that makes a parachute go up is called drag. As the parachute deploys, it creates drag by slowing down the descent of the person wearing it, leading to an upward force that helps to slow down their fall.
What is the force called pushing up?
The force pushing up is called the normal force. It is exerted upwards by a surface to support an object placed on it and counteract the force of gravity pulling the object downwards.
What is the name of the force pushing up?
The force pushing up is called the normal force. It acts perpendicular to the surface an object is resting on, counteracting the force of gravity.
What belongs on the line a parachute uses the force pushing up on a large area of silk to resist the force of .........?
Gravity. A parachute uses the force pushing up on a large area of silk to resist the force of gravity, allowing for a controlled descent and landing.
What are the action and reaction forces on the farcical of parachute when it is deployed?
When a parachute is deployed, the action force is the parachute pushing against the air resistance, creating drag. The reaction force is the air pushing back up on the parachute, providing lift and slowing down the descent of the object attached to the parachute.
What belongs on the line a parachute uses the force pushing up on a large area of silk to resist the force of?
Gravity.
What is the force called that makes a parachute go up?
The force that makes a parachute go up is called drag. As the parachute deploys, it creates drag by slowing down the descent of the person wearing it, leading to an upward force that helps to slow down their fall.
What is the force called pushing up?
The force pushing up is called the normal force. It is exerted upwards by a surface to support an object placed on it and counteract the force of gravity pulling the object downwards.
What is the name of the force pushing up?
The force pushing up is called the normal force. It acts perpendicular to the surface an object is resting on, counteracting the force of gravity.
When a obgect floats in water the name of the force pushing is?
The force pushing the object up when it floats in water is called buoyant force. This force is a result of the difference in pressure between the top and bottom of the object in the water, pushing the object upwards.
Is forces on the parachute upthrust and down force?
The main forces acting on a parachute are drag force (opposes the motion) and the force of gravity (pulls the parachute downwards). Upthrust, also known as lift force, can also be present when the parachute is deployed properly and creates a lifting force that helps slow down the descent. Overall, the forces involved include drag, gravity, and lift.
What force cause parachute to slow down or speed up?
Air resistance, also known as drag force, is the force that slows down a parachute. By increasing the surface area of the parachute, more air resistance is created, slowing down the descent. Gravity acts as the force causing the parachute to speed up initially before air resistance counteracts it.
Normal force is supplied by what?
A surface pushing up, equal and opposite to a force pushing against it
When an object is falling toward the Earth what force is pushing up on the object?
If the object is outside the earth's atmosphere, there is no force pushing up on it. If it is inside the earth's atmosphere, then air drag is pushing up on it.
What is the result when the force pushing up on an immersed object is greater than the force pushing it down?
The object floats
