speed = distance traveled per unit time.
The average speed cannot be obtained without knowing the instantaneous speed sampled over the period of time in question.
Let us say you need to calculate the average speed of your car traveling from home to work. You will have to record your instantaneous speed at t=0 (s0), t=1 unit of time (s1), t=2 units of time (s2), ..., t=n units of time (sn). Then the average speed will be (s0+s1+s2+...sn)/n. The smaller the time interval of sampling, the more accurate will be the average. For example, if you only sample at the beginning and the end of your trip, you will say your speed = (0+0)/1 = 0, which is obviously inaccurate. In real life, you trade off accuracy with resources available.
The average speed of an object is calculated by dividing the total distance traveled by the total time taken. Therefore, there is a direct relationship between distance, time, and average speed. If the distance traveled increases while the time taken remains constant, the average speed will increase. Conversely, if the time taken to travel a certain distance increases, the average speed will decrease.
The relationship between weight and average cycling speed is that generally, a lighter weight can lead to a faster cycling speed. This is because less weight requires less effort to pedal and move forward. However, other factors such as fitness level, bike type, and terrain can also impact cycling speed.
I would prefer to use "distance" instead of "length".distance = speed x time
Real world applications that depend on the relationship between distance, average speed, and time include calculating fuel efficiency in vehicles, determining delivery schedules for transportation companies, and estimating travel time for trip planning purposes. These applications utilize the formula: Distance = Speed x Time.
the relation is that if you have longer legs will can be faster if you train your legs and stretch them on a daily bases so they are used to contrasting and restricting themselves Cannibals
The relationship between speed and the force of impact is typically a linear relationship, meaning that as speed increases, the force of impact also increases proportionally. This relationship is described by the kinetic energy formula, where kinetic energy (and therefore force of impact) increases with the square of the speed.
Yes , there is a relationship between height and speed . Which is that to get fast we need to be tall . Height isn't anything weight can slow you down so speed also consists of height that is the relationship between speed and height
speed = frequency x wavelength
average speed between 70-80 km/sec
nothing
None.
Instantaneous speed is the speed at a particular moment in time.The average speed of an object tells you the (average) rate at which it covers distance