The speed. Also, if a positive slope represents the speed in one direction, the negative slope is the speed in the opposite direction.
It is the instantaneous speed in the direction in which the displacement is measured.
The slope of the speed/time graph is the magnitude of acceleration. (It's very difficult to draw a graph of velocity, unless the direction is constant.)
the slope show the velocity of the object which show its direction and magnitude.
Magnitude of acceleration (but conveys no informationregarding acceleration's direction).
Speed (in the radial direction) = slope of the graph.
The speed. Also, if a positive slope represents the speed in one direction, the negative slope is the speed in the opposite direction.
slope of the graph ... actually the absolute value of the slope, actual slope, positive or negative, would indicate direction, so the slope would be velocity.
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'.)
It is the instantaneous speed in the direction in which the displacement is measured.
The slope of the speed/time graph is the magnitude of acceleration. (It's very difficult to draw a graph of velocity, unless the direction is constant.)
upward
upward
It is radial the velocity in a direction towards or away from a fixed point of reference (the origin) at a given time. The velocity time graph takes no account of motion in a direction across the radial direction.
It gives the velocity of the object in the radial direction. The graph gives no information whtsoever about motion in a transverse direction.
the slope show the velocity of the object which show its direction and magnitude.
Supply curves do not always slope from left to right. A supply curve can slope from the right and when this happens this means that there is a surplus of goods at a lower price.