Meters / second. Or any unit of length divide by any unit of time.
Units that are used for measures in which the direction is relevant. Example are displacement, velocity, acceleration, force.
To convert acceleration to velocity, you must integrate.Similarly, to convert velocity to distance, you must integrate a second time. This is why the distance covered by a projectile is a second order quadratic equation.
The SI unit for velocity is m/s. Therefore the SI units for velocity squared would be m2/s2.
The units are the same (metres per second) except that the velocity also has the direction of motion associated with it.
Momentum is defined as mass times velocity, and it requires units of mass times units of velocity. The SI unit is kilograms x meters / second. There is no special name for this combination of units. Impulse (force times time) has the same units.
No, velocity is not a derived unit. It is a fundamental physical quantity that measures the rate of change of an object's position with respect to time. Velocity is derived from the fundamental units of length and time.
Velocity is speed and its direction. The units of velocity are any unit of speed and any means of indicating a direction.
Both velocity and speed are measured using units of distance per unit time, such as meters per second (m/s) or kilometers per hour (km/h).
Velocity is the measure of speed in a given direction. Although the SI measurement units for both are metres per second, there must be an explicit or implied direction for velocity.
Derived units are made by combining base units using mathematical operations such as multiplication and division. They are used to express physical quantities and their combination is necessary to represent more complex measurements, such as velocity or volume. Examples of derived units include meters per second for velocity or cubic meters for volume.
The dimensional formula of areal velocity is [T^-1], where T represents time. Areal velocity is defined as the rate of change of area with respect to time and is commonly used in the study of rotational motion or angular velocity. It is expressed in units of m²/s in the International System of Units.
The units of velocity are typically measured in meters per second (m/s) or kilometers per hour (km/h).