Translation of "change of velocity" to German language:
Dictionary English-German
Change - translation : Change of velocity - translation : Velocity - translation :
Examples (External sources, not reviewed)
| The velocity change was . | |
| So change in velocity. | |
| Change in velocity over time. | |
| So what's our change in velocity? | |
| The second is the change of velocity in space. | |
| Well acceleration is just change in velocity. | |
| Change in velocity over time. Over time. | |
| A force causes a change in velocity and, likewise, a change in velocity generates a force. The equation works both ways. | |
| 78 m s is our change in velocity. | |
| The acceleration is equal to change in velocity over change in time. | |
| Acceleration is just the change in velocity over time. | |
| Acceleration, in physics, is the rate of change of velocity of an object. | |
| I have change in time is equal to change in velocity divided by acceleration. | |
| So the velocity of something is its change in position, ... ... including the direction of its change in postition. | |
| And in this situation, what is our change in velocity? | |
| Proper acceleration is not the same as coordinate acceleration (rate of change of velocity). | |
| P value for change from pre Tx 1 Height Velocity SDS | |
| You could say that my average velocity equals just change in distance divided by change in times. | |
| So force is also equal to well, mass times change in velocity. | |
| And then we said, well, the velocity, if we know the distance, the velocity is just the change of the distance with respect to time. | |
| And this is a little tricky here, I said, you know, the mass times the change in velocity, that's the same thing as the change in the mass times the velocity, assuming the mass doesn't change. | |
| Moving the mouse over the lower part of the display will allow change of velocity levels. | |
| Galileo Galilei, however, realised that a force is necessary to change the velocity of a body, i.e., acceleration, but no force is needed to maintain its velocity. | |
| So I just told you the definition of acceleration it's the change in velocity over time! | |
| So let's multiply both sides by change in time. You get Δt acceleration is equal to change in velocity. | |
| Well, we're starting off with the velocity, or we're assuming we're starting off with the velocity of 0 m s, and we're getting up to 78 m s, so our change in velocity is the 78 m s. | |
| Velocity X and Velocity Y | |
| See also Angular velocity Orders of magnitude (angular velocity) References | |
| The rate of change of velocity (current) multiplied with mass (inductance) requires or generates a force (an electrical voltage). | |
| Velocity is the rate of change of the displacement, the difference between the final and initial position of an object. | |
| So we also know that force is equal to mass times change in velocity per unit of time, right? | |
| So that could also be viewed as the change in mass times velocity in the unit amount of time. | |
| Velocity | |
| velocity | |
| Velocity | |
| Velocity | |
| Velocity. | |
| Water velocity The water velocity of the Aller is very slow in places. | |
| Radial velocity is the velocity of an object in the direction of the radius (i.e. | |
| So it becomes t sub s times the velocity of the wave minus the velocity of the source, all of that over the velocity of the wave. | |
| This means that the ball's acceleration, which is a derivative of its velocity, depends on the velocity (and the velocity depends on time). | |
| Velocity matching | |
| Angular velocity | |
| Max velocity | |
| Input velocity | |
Related searches : Velocity Of Change - Velocity Change - Velocity Of Flow - Velocity Of Light - Velocity Of Fall - Velocity Of Propagation - Velocity Of Sound - Velocity Of Data - Velocity Of Circulation - Velocity Of Approach - Velocity Of Detonation - Of Change
