The formula to calculate the terminal velocity of a sphere falling through a fluid is given by:
Vt frac29 frac(rhos - rhof)gR2eta
where:
The formula to calculate acceleration is: acceleration = (final velocity - initial velocity) / time.
Without air, the speed of a falling object keeps increasing, and never reaches a maximum. The only thing that causes it to reach a maximum and stop increasing is air resistance. The effects of air resistance depend on the size, shape, and composition of the object, and the calculation of the "terminal velocity" in advance is very complex.
Mathematically, terminal velocity-without considering buoyancy effects-is given bywhereVt = terminal velocity,m = mass of the falling object,g = acceleration due to gravity,Cd = drag coefficient,ρ = density of the fluid through which the object is falling, andA = projected area of the object.Anand Kumar GuptaResearch ScholarCSIR Laboratory
The formula to calculate the linear velocity of a wheel when it is rotating at a given angular velocity is: linear velocity radius of the wheel x angular velocity.
To calculate the change in velocity of an object, you subtract the initial velocity from the final velocity. The formula is: Change in velocity Final velocity - Initial velocity.
The formula to calculate acceleration is: acceleration = (final velocity - initial velocity) / time.
Without air, the speed of a falling object keeps increasing, and never reaches a maximum. The only thing that causes it to reach a maximum and stop increasing is air resistance. The effects of air resistance depend on the size, shape, and composition of the object, and the calculation of the "terminal velocity" in advance is very complex.
Mathematically, terminal velocity-without considering buoyancy effects-is given bywhereVt = terminal velocity,m = mass of the falling object,g = acceleration due to gravity,Cd = drag coefficient,ρ = density of the fluid through which the object is falling, andA = projected area of the object.Anand Kumar GuptaResearch ScholarCSIR Laboratory
The formula to calculate the linear velocity of a wheel when it is rotating at a given angular velocity is: linear velocity radius of the wheel x angular velocity.
To calculate the change in velocity of an object, you subtract the initial velocity from the final velocity. The formula is: Change in velocity Final velocity - Initial velocity.
The formula to calculate the angular velocity of a rotating object is angular velocity () change in angle () / change in time (t).
The formula to calculate the net acceleration of an object is: Net Acceleration (Final Velocity - Initial Velocity) / Time.
Terminal velocity of a falling object can be calculated using the formula: ( v = \sqrt{\frac{2mg}{C\rho A}} ), where ( v ) is the terminal velocity, ( m ) is the mass of the object, ( g ) is the acceleration due to gravity, ( C ) is the drag coefficient of the object, ( \rho ) is the density of air, and ( A ) is the cross-sectional area of the object.
The formula to calculate the average angular velocity of an object in motion is: Average Angular Velocity (Change in Angle) / (Change in Time)
To calculate angular velocity from linear velocity, you can use the formula: Angular velocity Linear velocity / Radius. This formula relates the speed of an object moving in a circular path (angular velocity) to its linear speed and the radius of the circle it is moving in.
The velocity formula that includes acceleration and time is: velocity initial velocity (acceleration x time). This formula can be used to calculate the velocity of an object by plugging in the initial velocity, acceleration, and time values into the equation. The result will give you the final velocity of the object after a certain amount of time has passed.
The formula to calculate velocity in meters per second (m/s) in physics is: Velocity (m/s) Distance (m) / Time (s)