speed is the gradient under the distance vs time graph which is change in distance /change in time
Slope of the graph will give you speed.
The speed is the slope of the curve in such a graph.
The slope of a distance-time graph represents speed.
The graph is a straight line. Its slope is the speed.
Acceleration is negative.
The graph of distance vs time increases exponentially as speed increases.
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.
To get speed from a distance-time graph, you would calculate the slope of the graph at a given point, as the gradient represents speed. To calculate total distance covered, you would find the total area under the graph, as this represents the total distance traveled over time.
speed is the gradient under the distance vs time graph which is change in distance /change in time
That's not correct. If you have a graph of distance as a function of time, the speed is the slope of the graph.
Speed (in the radial direction) = slope of the graph.
Slope of the graph will give you speed.
The speed is the slope of the curve in such a graph.
The slope of a distance-time graph represents speed.
If the distance increases but the time decreases, the average speed of the object would increase. This is because speed is calculated as distance divided by time, so when distance increases and time decreases, the ratio of distance to time increases, resulting in a higher average speed.
A speed graph measures the distance devided over time. Acceleration graph measures the change in speed over time.