You haven't entirely defined the problem, however, if distance is fixed, than velocity and time vary in an inverse relation to each other. How long does it take to travel one mile? The faster you travel, the less time it takes. So the relationship is inverse. More of one means less of the other. But only for a fixed distance. You could just as well imagine that you will travel for a fixed period of time. Then there is a direct relationship between speed and distance traveled. The faster you travel, the farther you will go.
Final velocity = Initial velocity +(acceleration * time)
the equation for average velocity a = s/t s = distance travelled t = time examples miles/hour, meters/sec
Derivitives of a velocity : time graph are acceleration and distance travelled. Acceleration = velocity change / time ( slope of the graph ) a = (v - u) / t Distance travelled = average velocity between two time values * time (area under the graph) s = ((v - u) / 2) * t
Impulse
Average velocity is def.ined as the ratio of total displacement to total time taken.
No, momentum is directly proportional to velocity, and in the same direction..
Frequency, when referring to waves, is directly proportional to the velocity of the wave. Frequency in inversely proportional to the wavelength.
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.
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
Velocity = Distance/Time V = d/t
V=distance divided by time
Velocity=displacement(distance)/time.
Distance= speed/ time D=V/t (capitals are important for distance and velocity
It is inversely proportional to wave length.
Final velocity = Initial velocity +(acceleration * time)
Use the velocity equation, Velocity = distance/time but because you are looking for time, you have to change the equation by multiplying by time and dividing by velocity to get, Time = Distance/Velocity Now plug in your values to get, time = 170 miles/65 mh-1 time = 2.6153846 hours
Time and distance traveled are directly proportional only if the velocity of the object in question is constant.