Gravity and air resistence.
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.
The terminal velocity of a cream pie thrown by a human would depend on various factors such as the size, weight, aerodynamics of the pie, and the speed at which it is thrown. However, in general, the terminal velocity of a typical cream pie might range from 20-50 miles per hour.
In that case, the object is said to have achieved terminal speed.
If the penny is in a vaccum, the penny has no terminal velocity because verminal velocity is when the resistance against the falling penny is equal to the force of gravity. So if it is in a vaccum, it has no forces resisting the fall, and it has no terminal velocity.
We will reach terminal velocity just before we hit the ground, then the result of our velocity will be terminal.
terminal velocity
The marble has lower drag so its terminal velocity would be greater. Each has its own terminal velocity.
The speed at terminal velocity depends on the mass and shape of the object. For example, a sheet of paper will have a very low terminal velocity; the terminal velocity for a man will be much higher.
Terminal Velocity - video game - happened in 1995.
Terminal Velocity - film - was created on 1994-09-23.
No. Terminal velocity is a particular kind of velocity and friction is a particular kind of force. The terminal velocity of a falling object is the maximum velocity it can have because air resistance prevents it from going any faster. And air resistance is a type of friction. So terminal velocity is due to a type of friction.
The terminal velocity of a 15lb watermelon falling from 40m up will depend on factors such as air density, shape of the watermelon, and air resistance. On Earth, a typical terminal velocity for a watermelon would be around 30-50 m/s, but this can vary based on the specific conditions of the fall.