Yes, they are proportional. Distance traveled is the velocity times the time. So if you travel at 60 miles per hour for two hours, you have gone 120 miles.
Directly proportional. Greater speed - greater distance.
velocity=distance/time -or- v=d/t
distance = velocity x time so on the graph velocity is slope. If slope is zero (horizontal line) there is no motion
Velocity
I assume you refer to the formula distance = velocity x time. If an object moves upward, the distance would become the height.
Not sure what you mean exactly. At constant velocity, the distance travelled is proportional to the time.
Distance Traveled is directly proportional to velocity. This is because velocity is the change in position over a period of time. The greater the velocity, the greater the distance traveled. For you calculus junkies, integrate velocity to get displacement.
Time and distance traveled are directly proportional only if the velocity of the object in question is constant.
It is proportional if the velocity doesn't change over time.
Velocity = Distance / Time Velocity is defined as the change in Distance travelled over the Time taken to travel across it at this average rate of velocity. Therefore, average velocity and time are inversly proportional to one another, while distance is directly proportional to both time and velocity, and vice versa. At a fixed velocity, the travel time increases as the distance becomes longer; if the distance is fixed, then the velocity must become greater to make the time shorter.
They are related through the formula distance = time x velocity (assuming constant velocity).
Displacement and Time, displacement is the distance with a direction ( vector quantity) , and time . Displacement and velocity are directly proportional, while velocity and time are inversely proportional..( The faster, the less time it will take) Velocity = Displacement ____________ Time
Momentum would be an example of kenetic energy.
No, momentum is directly proportional to velocity, and in the same direction..
its inversely proportional to the square of the distance between objects.
four times as great
Frequency, when referring to waves, is directly proportional to the velocity of the wave. Frequency in inversely proportional to the wavelength.