Speed is equivalent to velocity in terms of magnitude, however, velocity also includes direction. Speed is a scalar quantity, meaning it has only magnitude, while velocity is a vector quantity, having both magnitude and direction.
No, velocity and frequency are different physical quantities. Velocity is the rate of change of position with respect to time, while frequency is the number of occurrences of a repeating event per unit of time. In some cases, they may be related through the wavelength of a wave, but they are not equivalent.
No, the terminal velocity of two different size spheres will not be the same. Terminal velocity is influenced by the size, shape, and weight of an object. Larger spheres are likely to reach a higher terminal velocity than smaller ones due to differences in air resistance.
Use the symbols 'm' for the object's mass, and 'v' for its velocity. Momentum is defined as 'mv' = the product of the object's mass and velocity. If the velocity doubles, then the new momentum is 'm' times '2v' = 2mv = 2 times (mv). This is just double the original momentum. So you can see that the magnitude of momentum is directly proportional to the magnitude of velocity, provided the mass remains constant.
Velocity is Speed in a given direction. Moving at constant velocity is equivalent to say moving with a constant speed in a specified direction. So, moving at constant velocity implicitly means moving with constant speed.
Velocity is the derivative of position with respect to time (v = dx/dt). Acceleration is the derivative of velocity with respect to time (a = dv/dt) and therefore the second derivative of position with respect to time (a = d2v/dt2). A derivative basically refers to the "rate of change" - graphically, it is the slope on a curve.
Product Velocity is the rate of change of the position of thing, equivalent to a specification of its velocity and way of activity.
Acceleration is the rate of change of velocity. If you know calculus, acceleration is the first derivative of velocity. If you don't know calculus, acceleration is the slope of the velocity curve or graph. All these definitions are equivalent.
No, velocity and frequency are different physical quantities. Velocity is the rate of change of position with respect to time, while frequency is the number of occurrences of a repeating event per unit of time. In some cases, they may be related through the wavelength of a wave, but they are not equivalent.
No, the terminal velocity of two different size spheres will not be the same. Terminal velocity is influenced by the size, shape, and weight of an object. Larger spheres are likely to reach a higher terminal velocity than smaller ones due to differences in air resistance.
1,260 km / 3.5 hr = 360 km per hour.That's the equivalent speed. We can't say anything about the velocity,because we don't know anything about the direction.
That's going to depend on where the bus leaves from, or ... what is equivalent ... what direction it has to head in order to get to Alpharetta. You can't talk about a velocity without a direction.
Use the symbols 'm' for the object's mass, and 'v' for its velocity. Momentum is defined as 'mv' = the product of the object's mass and velocity. If the velocity doubles, then the new momentum is 'm' times '2v' = 2mv = 2 times (mv). This is just double the original momentum. So you can see that the magnitude of momentum is directly proportional to the magnitude of velocity, provided the mass remains constant.
Velocity is Speed in a given direction. Moving at constant velocity is equivalent to say moving with a constant speed in a specified direction. So, moving at constant velocity implicitly means moving with constant speed.
Velocity is the derivative of position with respect to time (v = dx/dt). Acceleration is the derivative of velocity with respect to time (a = dv/dt) and therefore the second derivative of position with respect to time (a = d2v/dt2). A derivative basically refers to the "rate of change" - graphically, it is the slope on a curve.
Acceleration and deceleration are both the rate at which velocity changes, Deceleration is a negative acceleration. In an equation the rate of deceleration is shown as a negative acceleration valueCentripetal acceleration is different and represents the rate of change of tangential velocity. There is no equivalent centripetal deceleration.
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.
Angular velocity is a measure of how fast an object is rotating around a specific axis, usually measured in radians per second. Angular momentum, on the other hand, is a measure of how difficult it is to stop an object's rotation, calculated as the product of angular velocity and moment of inertia. In simple terms, angular velocity is the speed of rotation, while angular momentum is the rotational equivalent of linear momentum.