Question
How does a falling object’s surface area affect calculations of terminal velocity?(1 point)
Responses
The greater the object’s surface area, the more air resistance it encounters.
The greater the object’s surface area, the more air resistance it encounters.
The greater the object’s surface area, the greater its terminal velocity.
The greater the object’s surface area, the greater its terminal velocity.
The greater the object’s surface area, the greater the air density.
The greater the object’s surface area, the greater the air density.
Surface area does not affect an object’s terminal velocity.
Surface area does not affect an object’s terminal velocity.
Responses
The greater the object’s surface area, the more air resistance it encounters.
The greater the object’s surface area, the more air resistance it encounters.
The greater the object’s surface area, the greater its terminal velocity.
The greater the object’s surface area, the greater its terminal velocity.
The greater the object’s surface area, the greater the air density.
The greater the object’s surface area, the greater the air density.
Surface area does not affect an object’s terminal velocity.
Surface area does not affect an object’s terminal velocity.
Answers
GPT-4o mini
The correct response is:
**The greater the object’s surface area, the more air resistance it encounters.**
This is because an increase in surface area leads to a larger area for air molecules to collide with, which increases the drag force acting on the object as it falls. This increased air resistance will affect the terminal velocity, which is the speed at which the force of gravity is balanced by the drag force.
**The greater the object’s surface area, the more air resistance it encounters.**
This is because an increase in surface area leads to a larger area for air molecules to collide with, which increases the drag force acting on the object as it falls. This increased air resistance will affect the terminal velocity, which is the speed at which the force of gravity is balanced by the drag force.