It is the radial velocity: that is, the speed in the direction towards or away from the origin. The slope will not be affected in any way at all by movement in other directions.
The slope of a line on a position vs. time graph would represent the a velocity of the object being described.
The ratio of rise to run.
If you have an object that is accelerating, then a position vs. time graph will give you a parabola which is pretty but is very hard to measure anything on - especially hard to measure the acceleration (or the curve of the line). If however, you graph position vs. time squared, you get a nice straight line (if you have constant acceleration) and therefore, you can measure the slope and get the acceleration. Remember: x = 1/2at2 so if you graph x vs. t2 then the slope = 1/2 a or a = 2*slope No matter what you are measuring, you always want to graph a straight line. hope that helps
The slope of a speed vs time graph indicates an objects acceleration.
The slope of the speed-vs-time graph is the magnitude of acceleration.
The slope of a line on a position vs. time graph would represent the a velocity of the object being described.
Slope of time Vs distance graph gives the inverse of velocity.
The slope of a force vs. time graph is equal to the change in momentum or the Impulse.
magnitude of acceleration at every point on the graph
The slope of a position/time graph is the speed (magnitude of velocity).If the graph's slope is changing, that means the speed is changing, andthat would be accelerated motion.
The ratio of rise to run.
Speed. More specifically... velocity.
The slope of the speed/time graph is the magnitude (size) of the object's acceleration.
postion is the area under the slope
The motion at constant speed.
The slope of the tangent line in a position vs. time graph is the velocity of an object. Velocity is the rate of change of position, and on a graph, slope is the rate of change of the function. We can use the slope to determine the velocity at any point on the graph. This works best with calculus. Take the derivative of the position function with respect to time. You can then plug in any value for x, and get the velocity of the object.
If you have an object that is accelerating, then a position vs. time graph will give you a parabola which is pretty but is very hard to measure anything on - especially hard to measure the acceleration (or the curve of the line). If however, you graph position vs. time squared, you get a nice straight line (if you have constant acceleration) and therefore, you can measure the slope and get the acceleration. Remember: x = 1/2at2 so if you graph x vs. t2 then the slope = 1/2 a or a = 2*slope No matter what you are measuring, you always want to graph a straight line. hope that helps