Orbit
When a spacecraft is in freefall and also moving forward, it remains in orbit around a larger body like a planet or moon. This combination of forward motion and freefall creates a balance where the spacecraft continuously falls towards the larger body while also moving forward at a speed that prevents it from crashing into the body.
Kind of, yes. It's a balance between orbital velocity, which is the high speed relative to the ground, and gravity, which is the force keeping the object in orbit.
freefall
freefall
avalanch
Freefall is when an object falls under the influence of gravity alone, without any other forces acting on it. In a non-freefall scenario, objects may experience other forces such as air resistance or propulsion that affect their motion.
Forward motion records was created in 2010.
No, but it is possible to not have an increase in speed. Because velocity is a directional quantity, not a scalar one, an object in freefall (by definition within a gravity field) is always under acceleration, just not necessarily one that alters its speed or even its position. Objects in orbit around a planet are in freefall (hence weightlessness) where the tangential component of their forward motion opposes the pull of gravity.
electricity is formed into motion by a motor
the motion of the car is forward
Freefall refers to the motion of an object falling solely under the influence of gravity, with no other forces acting on it except air resistance. During freefall, the only force acting on the object is its weight, causing it to accelerate downwards at a constant rate of 9.81 m/s^2 (due to gravity).
gravity holds you down wings + forward motion = lift thrust = forward motion air resistance = resistance to forward motion thin air at altitude is easier and cheaper to get through