A change in the slope of a location-time graph of an object indicates a change in the radial component of its speed.
"Slope" is the steepness of the line on any graph.
distance = velocity x time so on the graph velocity is slope. If slope is zero (horizontal line) there is no motion
Steep slope on a distance/time graph indicates high speed.
The slope of each point on the line on the graph is the rate of change at that point. If the graph is a straight line, then its slope is constant. If the graph is a curved line, then its slope changes.
That means the speed (the slope of the position-time graph) is decreasing.
The slope of the speed/time graph is the magnitude (size) of the object's acceleration.
The slope of a speed vs time graph indicates an objects acceleration.
instantaneous velocity
The slope of a force vs. time graph is equal to the change in momentum or the Impulse.
It shows the component of velocity in a radial direction. Any motion in a transverse direction is ignored.
The slope of the speed/time graph is the magnitude (size) of the object's acceleration.
"Slope" is the steepness of the line on any graph.
The slope at any point is the velocity, so you can construct a graph of that. The slope at any point on that graph is the acceleration. So you can construct a graph of that. The slope at any point on that is the rate of change of acceleration. And so on.
distance = velocity x time so on the graph velocity is slope. If slope is zero (horizontal line) there is no motion
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.
That slope is the 'speed' of the motion. If the slope is changing, then the speed is changing. That's 'accelerated' motion. (It doesn't matter whether the speed is growing or shrinking. It's still 'accelerated' motion. 'Acceleration' does NOT mean 'speeding up'.)
magnitude of velocity