Directly proportional. Greater speed - greater distance.
Please note that km is a distance, while mph is a speed, so you can't convert that directly. For a speed problem, first convert the kilometers to miles, then use the formula: distance = speed x time
It is not possible to sketch anything using this browser. The speed of a body cannot be determined from a distance-time graph. The slope of the graph is a measure of the radial velocity - that is the speed directly towards or directly away from the starting point. However, there is absolutely no information of any motion in a transverse direction. Since motion in this direction cannot be assumed to be 0, the distance-time graph cannot be used to determine speed.
Distance = time * average speed (velocity) Average speed = Distance/time
Nearly! Speed is distance divided by time...
Speed equals distance divided by time. By rearranging that formula, we get time equals distance divided by speed.
Distance and time do not, in general, affect the speed. Speed, however, can affect distance or time. Distance is directly proportional to speed, time is inversely proportional.
Time is inversely proportional to speed.
Neither. The relationship is not that simple.
They're an interchangeable equation in physics. S = D / T T = D / S D = T * S Speed is equal to distance over time. Speed is directly proportional to distance. Speed is inversely proportional to time. Init bruv--By cloudy8484 look me up Peace out!
Distance is directly proportional to time.(Which simply means that distance covered by object is directly proportional to time it took) Distance= Time*Speed * is the multiplication sign
Frequency and wavelength are inversely proportional. Their product is always the speed of the wave;it doesn't change, regardless of the frequency/wavelength.
The energy per photon is directly proportional to the frequency; the frequency is inversely proportional to the wavelength (since frequency x wavelength = speed of light, which is constant); thus, the energy per photon is inversely proportional to the wavelength.
Definitely. Distance is directly proportional to time, and the proportionality constant is called "speed".
Speed is directly proportional to energy in case of Einstein equation.
tangential speed is directly proportional to rotational speed at nay fixed distance from the axis of rotation
Mass and force are directly proportional, therefore: more mass = greater force (Equation: F = ma). Mass and speed are inversely proportional, so: more mass = lesser speed (Equation: p = mv).
Torque and speed are inversely proportional