it depends on person skydiving
The sky diver jumped off the airplane and experienced air resistance.
No, all objects fall at the same rate regardless of their mass due to gravity, neglecting air resistance. The acceleration of gravity on an object is independent of its mass.
Opening a parachute would slow down the sky diver's fall by increasing air resistance. This creates a counterforce that opposes gravity, causing the sky diver to decelerate and descend more slowly, leading to a safer landing.
When a skydiver opens his parachute, air resistance (also known as drag force) increases. This is due to the parachute creating a larger surface area and creating more resistance against the air, which slows down the skydiver's fall. This increased air resistance counterbalances the force of gravity acting on the skydiver.
When a skydiver opens their parachute, air resistance increases which slows down the skydiver. Terminal velocity is the maximum speed a falling object can reach when the force of gravity is balanced by the force of air resistance. Opening the parachute decreases the skydiver's speed, allowing them to land safely.
The force that changes is air resistance and the force that stay the same is gravity.
The sky diver jumped off the airplane and experienced air resistance.
It's also known as the force of air resistance.
No, all objects fall at the same rate regardless of their mass due to gravity, neglecting air resistance. The acceleration of gravity on an object is independent of its mass.
Opening a parachute would slow down the sky diver's fall by increasing air resistance. This creates a counterforce that opposes gravity, causing the sky diver to decelerate and descend more slowly, leading to a safer landing.
When a skydiver opens his parachute, air resistance (also known as drag force) increases. This is due to the parachute creating a larger surface area and creating more resistance against the air, which slows down the skydiver's fall. This increased air resistance counterbalances the force of gravity acting on the skydiver.
The force down remains constant.force down (newtons) = (mass (kg) * acceleration due to gravity ((m/s)/s) ).The force up varies with velocity and drag coefficient ( which increases significantly when the chute opens).force up (newtons) = velocity2 * drag coefficient
Sky Diver was created in 1978.
When a skydiver opens their parachute, air resistance increases which slows down the skydiver. Terminal velocity is the maximum speed a falling object can reach when the force of gravity is balanced by the force of air resistance. Opening the parachute decreases the skydiver's speed, allowing them to land safely.
Terminal velocity is when air drag stops you from going any faster when falling. A heavier person will fall with greater force than the light sky diver falls at. So the heavier skydiver will require more force from air in order to keep him/her at terminal velocity
Gravity
An open parachute increases air resistance for a falling skydiver by capturing air in its canopy, creating drag that counteracts gravity and slows the descent. The increased surface area of the parachute also results in more air molecules colliding with it, further enhancing the resistance. This process allows the skydiver to decelerate safely and control their descent back to the ground.