Distance-time graph will show a straight line with a positive slope. Speed-time graph will show a horizontal line at the uniform speed. Acceleration-time graph will show a horizontal line at a = 0.
If you graph speed against time, you will have a straight, horizontal, line.
If you graph distance against time, you will have a straight line that goes from the lower left to the upper right.
That all depends on the motion of the object. The graph can be a straight
horizontal line, a straight line that slopes up, one that slopes down, or
many kinds of curved lines. About the only thing the graph can't be is
a vertical line.
With distance marked along the horizontal (x) axis and time along the vertical (y) axis, the graph of the position of an object moving at constant speed is a straight line that rises as it moves to the right.
You can indeed graph the speed of an object in motion. You simply need to set up motion sensors that track speed at different distances and map your findings.
If speed changes, then the speed/time graph has up/down curves in it.
If a body is moving with variable speed, then the only thing you can say about
its speed/time graph is that the graph is not a straight, horizontal line.
If the speed is constant, the a speed vs. time graph will show a horizontal line. If the speed is non-zero, then it simply won't pass through the origin.
A line which is not straight.
It is a horizontal line.
Yes it can.When a body moves in a circular path keeping its speed uniform then it will have variable vilocity as vilocity is the speed in a particular direction and while moving in a circular path its direction keeps changing and so does vilocity
Velocity describes both the speed and direction an object is moving.
control group are the ones that are not being tested. dependent variable is the hair growth.
Monitor, and maintain awareness of, the position, speed, and direction of all moving objects. Maintain and continuously update predictions of the future course of each moving object. Move out of the path of any moving object, i.e. get out of the way, before it reaches your position.
It depends on mass and velocity. ans : it depends on the mass & speed of the moving object. no, it depends on the work & energy.
If a body is moving with variable speed, then the only thing you can say aboutits speed/time graph is that the graph is not a straight, horizontal line.
The independent variable, in this case time, is on the horizontal axis of a speed graph.
A graph is constructed such that time (in hours) is the x-variable and distance (in miles) is the y-variable. If you plot the distance that a car travels on the graph traveling at a speed of 60 miles per hour, what is the slope of the graph?
It represents the speed of a moving object at any time covered by the graph.
If speed changes, then the speed/time graph has up/down curves in it.
A straight line with a constant slope
The dependent variable.
a speed graph shows us how the speed of a moving object changes with time
60 A.S apex :)
it means the object is moving at a constant speed
That the object is moving at a constant speed
The variable plotted along the vertical axis is the distance in the first case, speed in the second. The gradient of (the tangent to) the distance-time graph is the speed while the area under the curve of the speed-time graph is the distance.