a plane is flying at the same 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
divide the larger force by the smaller force.
add the two forces together
subract the smaller force from the greater one
multiply the two forces
The plane's net force is calculated by adding the two forces together.
To calculate the net force acting on the plane, you should add the two forces acting on it: the force applied by the plane's engines and the force provided by the tailwind. In this case, the force applied by the engines is the force caused by the plane's speed of 70 kilometers per hour, and the force provided by the tailwind is 5 kilometers per hour.
Therefore, to find the net force acting on the plane, you add the two forces together:
Net Force = Force from the engines + Force from the tailwind
Net Force = 70 km/h + 5 km/h
Net Force = 75 km/h
So, the net force acting on the plane is 75 kilometers per hour.
To calculate the net force acting on the plane, you need to subtract the smaller force from the greater one.
In this scenario, the plane is flying at the speed of 70 kilometers per hour, and a tailwind of 5 kilometers per hour is acting on the plane in the same direction.
To calculate the net force, subtract the smaller force (tailwind) from the larger force (plane's speed):
Net force = Plane's speed - Tailwind speed
Net force = 70 km/h - 5 km/h
Net force = 65 km/h
So, the net force acting on the plane is 65 kilometers per hour.