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∙ 9y agoThis cannot be answered. In order for this to be answered you will have to give me the value to the letter X.
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∙ 9y agoLet s denote distance v denote speed t denote time. s = integral(v)dt If speed is constant, s = vt.
Average speed = Distance covered/Time taken
Distance covered - 2199m Displacement - 200m Distance covered - 2199m Displacement - 200m
At 10 miles per hour, a distance of 10.67 feet is covered every second.
Speed
The dimension for distance is L, representing length. When we talk about the distance covered during the nth second, it should also have the dimension of length (L) since it is a measure of how far an object has traveled. LT^-1, on the other hand, would be a measure of speed (L/time), not distance.
The average constant speed of the object between 2 and 5 seconds is the total distance covered divided by the time elapsed. If you have the distance covered during this time interval, divide it by 3 seconds (5s - 2s) to get the average constant speed.
The distance covered by an object in the last second of its motion is equal to the object's velocity in meters per second. This means that if the object is moving at a constant velocity, the distance covered in the last second will be the same as the velocity.
The distance vs. time graph of an object moving at a constant speed would be a straight line with a positive slope. This is because the distance covered by the object would increase uniformly with time as the object moves at a constant speed.
None.Speed is the distance covered per unit of time. If no distance is covered then the speed is 0.None.Speed is the distance covered per unit of time. If no distance is covered then the speed is 0.None.Speed is the distance covered per unit of time. If no distance is covered then the speed is 0.None.Speed is the distance covered per unit of time. If no distance is covered then the speed is 0.
Time and distance are directly proportional for an object moving at a constant speed. This means that the longer the time taken to travel, the greater the distance covered, and vice versa. The relationship can be expressed using the formula: Distance = Speed x Time.
It indicates constant speed. Velocity may or may not be constant, because we don't know anything about changes in direction that may occur.
The incorrect answer (but expected) answer is probably "time taken for the journey". Unfortunately, that is true ONLY if the distance is covered at constant speed and there is no valid reason for assuming that!
33,055m or 33.055Km
Distance covered in nth second means the distance covered in that particular second . It cannot be more than the distance covered in n seconds which means the distance covered in a total time of n seconds.
Let s denote distance v denote speed t denote time. s = integral(v)dt If speed is constant, s = vt.
A single constant speed that would have taken you the same distance that you covered during a period of time when your speed actually changed.