A toy helicopter flies forward with a force of 15 N into an oncoming wind of 10 N. The force of gravity pulls the helicopter down with a force of 5 N, but the propeller is providing an upward force of 10 N.

Which of the following accurately describes the helicopter’s force?

(1 point)
Responses

​​​​​​The toy helicopter is flying forward with a force of 5 N and upward with a force of 5 N.
​​​​​​ The toy helicopter is flying forward with a force of 5 N and upward with a force of 5 N.

The toy helicopter is flying forward with a force of 15 N.
The toy helicopter is flying forward with a force of 15 N.

The toy helicopter is flying forward with a force of 15 N and upward with a force of 10 N.
The toy helicopter is flying forward with a force of 15 N and upward with a force of 10 N.

The toy helicopter is flying forward with a force of 10 N and upward with a force of 5 N.

1 answer

To analyze the forces acting on the toy helicopter, we look at the forward and vertical forces separately.

  1. Forward Forces:

    • The helicopter generates a forward force of 15 N.
    • There is an opposing wind force of 10 N.
    • Thus, the net forward force = 15 N (forward) - 10 N (wind) = 5 N (forward).
  2. Vertical Forces:

    • The helicopter's propeller provides an upward force of 10 N.
    • The force of gravity pulls it down with a force of 5 N.
    • Thus, the net vertical force = 10 N (upward) - 5 N (downward) = 5 N (upward).

Putting it all together, the helicopter is flying forward with a net force of 5 N and upward with a net force of 5 N.

Therefore, the correct response is: The toy helicopter is flying forward with a force of 5 N and upward with a force of 5 N.