i don`t know
Generally it is a Yes. Instantaneous velocity is the exact velocity at a particular time in the course of the movement. However, average velocity is the average of all the instantaneous velocity over a period of time. It is also known as speed in everyday life. As a result, the movement of an object over a time period under varying velocity denotes a varying instantaneous velocity which could be different from the average velocity. It is however, possible that the instantaneous velocity equates to the average velocity at a certain point over the duration of movement. For example, a ball is traveling at instantaneous velocity of 99m/s at t=1s , 100m/s at t=2s and 101m/s at t=3s. the average velocity over the 3s period is hence 100m/s which coincides with the instantaneous speed at t=2s.
Success at means the goal. Success in means the result.
The difference.
-- Square the difference between their 'x'-values. -- Square the difference between their 'y'-values. -- Add the two squares. -- Take the square-root of the sum. The result is the distance between the points.
A claim is putting forth the right to something. If that claim is not settled then it might result in an argument.
The result of subtracting one velocity vector from another velocity vector is a new velocity vector. This new vector represents the difference in speed and direction between the two original velocity vectors.
The velocity does not depend on ther shower head, however it does depend on the cold mains pressure, a higher pressure will result in a higher velocity, and visa versa.
No, average deviation cannot be negative. Deviation is a representation of differences between numbers. A difference is always an absolute value, so the number cannot be negative (even though subtracting the deviation from an average may result in a a negative result).
Velocity is the rate of change of an object's position with respect to time, including its speed and direction. Acceleration, on the other hand, is the rate of change of an object's velocity with respect to time, indicating how quickly the object's velocity is changing. Acceleration may result from changes in speed, direction, or both.
Generally it is a Yes. Instantaneous velocity is the exact velocity at a particular time in the course of the movement. However, average velocity is the average of all the instantaneous velocity over a period of time. It is also known as speed in everyday life. As a result, the movement of an object over a time period under varying velocity denotes a varying instantaneous velocity which could be different from the average velocity. It is however, possible that the instantaneous velocity equates to the average velocity at a certain point over the duration of movement. For example, a ball is traveling at instantaneous velocity of 99m/s at t=1s , 100m/s at t=2s and 101m/s at t=3s. the average velocity over the 3s period is hence 100m/s which coincides with the instantaneous speed at t=2s.
A result is what you get from doing something. An effect is what happens because of that result.
To find the magnitude of acceleration in a scenario, you can use the formula: acceleration change in velocity / time taken. Calculate the difference in velocity between two points and divide it by the time taken to travel that distance. The result will give you the magnitude of acceleration.
To find the magnitude of acceleration in a given scenario, you can use the formula: acceleration change in velocity / time taken. Calculate the difference in velocity between two points and divide it by the time taken to travel that distance. The result will give you the magnitude of acceleration.
A benchmark is the result of benchmarking.
smog is the result of pollution
A "difference" is either the result of a subtraction (the difference between 7 and 5 is 7 minus 5), or its absolute value (so that the difference between 7 and 5 is the same as the difference between 5 and 7).
Displacement is equal to average velocity multiplied by the change in time because average velocity is defined as the change in displacement divided by the change in time. Therefore, rearranging this expression gives the displacement formula as average velocity multiplied by change in time.