Q: Formula for resultant velocity

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displacement+time divided by distance

The resultant velocity of a plane is 75 km/hr.

The formula for velocity is (v = d/t) or (velocity = distance/time).

Velocity is distance / time

velocity = frequency / wavelength, I believe.

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Velocity=displacement(distance)/time.

displacement+time divided by distance

When you combine 2 velocities that are in the same directions, add them together to find the resultant velocity. When you combine 2 velocities that are in opposite directions, subtract the smaller velocity from the larger velocity to find the resultant velocity.

The formula for resultant velocity calculates the overall velocity of an object that is the combination of its individual velocities in different directions. It takes into account both the speed and direction of the object to determine its final velocity.

You can calculate the resultant velocity by combining the linear velocity and the tangential velocity due to the angular velocity. The resultant velocity is the vector sum of these two velocities, which you can calculate using vector addition. The formula is v_resultant = sqrt(v_linear^2 + v_tangential^2), where v_linear is the linear velocity and v_tangential is the tangential velocity due to angular velocity.

To find the resultant velocity when combining two velocities going in opposite directions, you simply subtract the smaller velocity from the larger velocity. The direction of the resultant velocity will be in the direction of the larger velocity.

The sum of all the velocity vectors.

The sum of all the velocity vectors.

To calculate the resultant velocity of two velocities in the same direction, simply add the two velocities together. The resultant velocity will be the sum of the individual velocities.

Resultant velocity is the overall velocity of an object when taking into account both its speed and direction. It is calculated by combining the individual velocities of the object using vector addition. The resultant velocity represents the net effect of all the individual velocities acting on the object.

When you combine 2 velocities that are in the same directions, add them together to find the resultant velocity. When you combine 2 velocities that are in opposite directions, subtract the smaller velocity from the larger velocity to find the resultant velocity.

Resultant velocity is the single velocity that represents the net effect of multiple velocities acting on an object. It is calculated by vector addition, taking into account both the magnitude and direction of each individual velocity.