A plane is flying at a speed of 70 kilometers per hour. Then a tailwind (moving in the same direction as the plane) of 5 kilometers per hour acts on the plane. How is the plane’s net force calculated?(1 point)%0D%0AResponses%0D%0A%0D%0ADivide the larger force by the smaller force%0D%0ADivide the larger force by the smaller force%0D%0A%0D%0AAdd the two forces together%0D%0AAdd the two forces together%0D%0A%0D%0AMultiply the two forces%0D%0AMultiply the two forces%0D%0A%0D%0ASubtract the smaller force from the greater one%0D%0ASubtract the smaller force from the greater one
To calculate the plane's net force, we need to subtract the smaller force (the tailwind) from the greater force (the plane's speed). Therefore, the correct answer is:
Subtract the smaller force from the greater one.
To calculate the net force acting on the plane, you need to add the forces together.
In this case, the plane is experiencing two forces: its own speed of 70 kilometers per hour and a tailwind of 5 kilometers per hour.
To get the net force, simply add these two forces together:
70 kilometers per hour + 5 kilometers per hour = 75 kilometers per hour
So, the net force acting on the plane is 75 kilometers per hour.
To calculate the plane's net force, you need to add the two forces acting on the plane.
In this case, the plane is flying at a speed of 70 kilometers per hour, and there is a tailwind of 5 kilometers per hour acting on the plane in the same direction.
To determine the net force, you add the two forces together:
70 kilometers per hour + 5 kilometers per hour = 75 kilometers per hour
Therefore, the plane's net force is 75 kilometers per hour.