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A body starts from rest nd moves with a constant accelerationThe ratio of distance covered in nth second to the distance covered in in x dimension in second is?
This cannot be answered. In order for this to be answered you will have to give me the value to the letter X.
The distance s meters traveled by a falling body starting from rest after time t seconds is?
If air resistance can be ignored, the distance in meters is 4.9t2. Note that 4.9 is half the numerical value of Earth's acceleration (9.8 meters per second square).
What can you say about motion of a body who's distance time graph is straight line parallel to X axis?
distance = speed x time the speed is the slope of the line which if parallel to X axis is zero - that means speed = 0 and distance is not changing with time, so the object is at rest ( not moving) relative to the observer
What is the distance covered by a freely falling object 5 seconds after it is dropped from rest?
0.7848 meter
What is the formula for distance traveled in acceleration?
If starting from rest, Distance = 1/2 (acceleration) x (time)2 . Otherwise, Distance = 1/2 (initial speed + final speed) x (time)
What is the slope in the distance time graph when the body is at rest?
The slope of the distance-time graph when the body is at rest is zero. This indicates that there is no change in distance over time, meaning the body is stationary or not moving.
Sketch a distance time graph as when a body is at rest and when a body is moving with constant speed?
about a hour
Why you are sleep?
because yur body needs to get rest from all human nature and sleeping for a cetain amount of time helps increase your tallness
What is the effect of normal force?
The normal force causes a body to move from its rest position and covers a distance.
What is the ratio of Distance travelled by body falling freely starting from rest in the first second and third seconds?
The ratio of distances traveled by a body in free fall starting from rest in the first and third seconds is 1:9. This is because the body's distance traveled in each second increases in proportion to the square of the time elapsed.
A distance-time graph for a body starting from rest how will you determine the speed of a body from this graph?
To determine the speed of a body from a distance-time graph when the body starts from rest, you can find the slope of the graph. The slope of a distance-time graph represents the speed of the body. A steeper slope indicates a higher speed, while a shallower slope indicates a lower speed.
When the body starts from rest and attain velocity v in time t with a constant acceleration the distance traveled by the body is?
The distance traveled by the body can be calculated using the equation s = (1/2)at^2, where s is the distance, a is the acceleration, and t is the time taken to reach velocity v from rest.
How does the distance from the rest point to crest compare to the distance from rest position to trough?
The distance from the rest point to the crest is equal to the distance from the rest point to the trough in a wave. This distance is also known as the amplitude of the wave and remains constant throughout the wave's motion.
What is the distance of rest to crest or from rest to trough called?
The distance from rest to crest is called amplitude, while the distance from rest to trough is also called amplitude. The amplitude represents the maximum displacement of a wave from its rest position.
If a body dropped from rest has a constant acceleration in free fall is the distance traveled by the body the same for each time interval?
No, the distance traveled by the body in free fall is not the same for each time interval. The distance traveled increases with time because the body accelerates due to gravity. This means that the body covers more distance in each subsequent time interval.
A body at rest may have?
a body at rest may have speed
What is a body that is not moving is said to be at what?
A body that is not moving is said to be at rest.
