It may unless it has an attached parachute
There is no drag in a vacuum to act against the acceleration.
The rocket needs to go sideways to reach orbit. By moving sideways fast enough, the rocket can overcome the force of gravity pulling it back towards Earth. This sideways velocity allows the rocket to enter a stable orbit around Earth.
The speed of a rocket required to reach Jupiter varies depending on the trajectory chosen and the specific mission parameters. However, it typically needs to reach a velocity of about 130,000 miles per hour (209,214 kilometers per hour) to complete the journey in a reasonable amount of time.
Assuming that you're referring to an object that is accelerating towards a massive body by means of gravitational attraction... When the force of frictional air resistance equals the opposing force of gravity, the net force on the object equals zero, and acceleration will cease. It is called terminal velocity, and the object will remain at this velocity until some new event happens.
the object will floatit shows increasing acceleration
We will reach terminal velocity just before we hit the ground, then the result of our velocity will be terminal.
No, terminal velocity does not depend on the mass of the object. Terminal velocity is the maximum speed an object can reach when the force of gravity is balanced by the force of drag. This means that all objects, regardless of their mass, will eventually reach the same terminal velocity in a given medium.
No, an acorn is too small and light to reach its terminal velocity when falling from a tree. Terminal velocity is the maximum constant speed that an object reaches when the drag force equals the force of gravity, and the small size and weight of an acorn mean that it doesn't experience enough air resistance to reach this terminal velocity.
Terminal velocity is the constant speed reached by an object falling through the atmosphere when the force of air resistance matches the force of gravity. Parachutes increase air resistance, allowing a person to reach terminal velocity at a slower speed. This slower fall reduces the impact force when landing, making it safer for the person.
No, raindrops do not reach terminal velocity because they are too small and have a low enough mass that air resistance slows them down before they can reach their maximum falling speed. Terminal velocity is typically reached by larger objects like skydivers or hailstones.
Skydivers reach terminal velocity because as they fall, the force of gravity pulling them downward is balanced by air resistance pushing upward. At terminal velocity, these forces are equal, so the skydiver stops accelerating and falls at a constant speed.
Yes, terminal velocity is the highest velocity that a falling object will reach when the force of air resistance equals the force of gravity acting on the object, causing it to no longer accelerate. At terminal velocity, the object falls at a constant speed without further acceleration.
The greatest velocity a falling object can reach is called terminal velocity. Terminal velocity occurs when the force of air resistance on the object matches the force of gravity pulling it down, resulting in a constant speed.
An egg would typically reach terminal velocity in about 12 to 15 seconds when dropped from a significant height. Terminal velocity is the point at which the force of gravity on the egg is equal to the force of air resistance, causing the egg to no longer accelerate.
Terminal velocity is the constant speed that an object reaches when the force of gravity pulling it down is balanced by the force of air resistance pushing up on it. The actual distance required to reach terminal velocity varies depending on the object's mass, shape, and other factors. But in general, it takes around 1,500 feet for a skydiver to reach terminal velocity.
Yes. - And please don't combine "does" and "is" in the same question that way.
Terminal velocity is the constant speed an object reaches in free fall when the force of gravity is balanced by air resistance. The distance it takes to reach terminal velocity depends on the object's weight, shape, and air density. Generally, it can take a few thousand feet for a skydiver to reach terminal velocity.