Yes, if the falling object changes its aerodynamic profile, it can reduce or increase drag. Drag causes the terminal velocity to decrease.
It gains energy because the molecules are spread out more and moving at a greater velocity.
Molecular velocity is defined as the velocity of a each molecule in a certain sample of gas. It can be expressed by means of root-mean-square velocity, average velocity and most probable velocity.
Terminal oxidation is oxidation on the end of a molecule. An example would be oxidation of a terminal carbon atom in a carbon chain.
Yes-connect the black wire to the brass terminal and the white wire to the silver terminal.
The negative terminal is called the anode
It decreases the terminal velocity of the parachutist.
In that case, the object is said to have achieved terminal speed.
Passing the terminal velocity is clearly not possible, otherwise it could not be called the 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 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.
If resistance is negligible, then there is no terminal velocity.
That is called terminal velocity.That is called terminal velocity.That is called terminal velocity.That is called terminal velocity.
Zero, by definition. "Terminal velocity" implies that the velocity no longer changes.
The marble has lower drag so its terminal velocity would be greater. Each has its own terminal velocity.
i think its velocity is min n its try to attain max. velocity which is terminal velocity...what say?
The velocity at which a falling object travels when the force of air resistance matches the force of gravity is called the terminal velocity. At terminal velocity, the object no longer accelerates and falls at a constant speed. The exact value of terminal velocity depends on the object's size, shape, and mass, as well as air density and viscosity.