0
Why does an object with a large surface area reach terminal velocity before an object with a small surface area?
An object with a large surface area experiences more air resistance, which increases as the object accelerates. This causes the object to reach terminal velocity quicker compared to an object with a smaller surface area, which experiences less air resistance and takes longer to reach terminal velocity.
What else can I help you with?
What happens before terminal velocity takes place?
Before terminal velocity is reached, an object will be accelerating due to the force of gravity. As the object accelerates, air resistance (drag) will increase, which will gradually counteract the force of gravity until the two forces are equal and the object reaches terminal velocity.
How can one determine the terminal velocity of an object?
Terminal velocity of an object can be determined by balancing the forces acting on it. When the force of gravity pulling the object down is equal to the force of air resistance pushing up, the object reaches its terminal velocity. This can be calculated using the object's weight, surface area, and air density.
When gravitational forces and air resistance equalize on an object that is falling toward earth and the object stops accelerating its velocity is called?
In that case, the object is said to have achieved terminal speed.
What factors affect terminal velocity in a fluid?
The factors that affect terminal velocity in a fluid include the weight and size of the object, the density and viscosity of the fluid, and the shape of the object. Objects with a larger surface area or lower weight will reach terminal velocity faster, while denser fluids or more streamlined objects will increase terminal velocity.
What factors determine terminal velocity?
Terminal velocity is determined by the balance between gravitational force pulling an object downward and air resistance opposing its motion. Factors influencing terminal velocity include the object's weight, its surface area exposed to air resistance, and the density of the medium through which it is falling. Increasing any of these factors can increase terminal velocity.
What happens before terminal velocity takes place?
Before terminal velocity is reached, an object will be accelerating due to the force of gravity. As the object accelerates, air resistance (drag) will increase, which will gradually counteract the force of gravity until the two forces are equal and the object reaches terminal velocity.
What veritables determine how fast an object will be moving when it reaches terminal velocity?
The surface area is the variable to determine how fast an object will be moving when it reaches terminal velocity.
How can one determine the terminal velocity of an object?
Terminal velocity of an object can be determined by balancing the forces acting on it. When the force of gravity pulling the object down is equal to the force of air resistance pushing up, the object reaches its terminal velocity. This can be calculated using the object's weight, surface area, and air density.
When gravitational forces and air resistance equalize on an object that is falling toward earth and the object stops accelerating its velocity is called?
In that case, the object is said to have achieved terminal speed.
What is the maximum terminal velocity on planet Jupiter?
There is no such thing as "maximum terminal velocity", neither on Jupiter nor hear on Earth. The "terminal velocity" depends on the specific object - and on the atmospheric conditions. For example, a very heavy object will typically have a larger terminal velocity than one that is very light; and near Earth's surface, the terminal velocity (for a given object) will be smaller than in the upper atmosphere, where there is less air resistance.
What factors affect terminal velocity in a fluid?
The factors that affect terminal velocity in a fluid include the weight and size of the object, the density and viscosity of the fluid, and the shape of the object. Objects with a larger surface area or lower weight will reach terminal velocity faster, while denser fluids or more streamlined objects will increase terminal velocity.
How does an object achieve terminal velocity?
99% of the object cause terminal velocity is determined from an object when it is going as fast as it will go
What factors determine terminal velocity?
Terminal velocity is determined by the balance between gravitational force pulling an object downward and air resistance opposing its motion. Factors influencing terminal velocity include the object's weight, its surface area exposed to air resistance, and the density of the medium through which it is falling. Increasing any of these factors can increase terminal velocity.
What is the speed of an object that has reached 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.
How many feet does it take to reach terminal velosity?
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.
does surface area affect terminal velocity?
Yes, surface area does affect terminal velocity. Objects with a larger surface area experience more air resistance, which can slow them down more effectively than objects with a smaller surface area. This can impact the terminal velocity, which is the maximum speed an object can reach when the force of air resistance equals the force of gravity.
What is termanial velocity?
Terminal velocity is the constant speed that a freely falling object eventually reaches when the resistance from the air matches the force of gravity pulling it down. At terminal velocity, the net force on the object is zero, so it no longer continues to accelerate. Objects with a larger surface area experience greater air resistance, which results in a lower terminal velocity.
