To calculate the gradient of the line on a graph, you need to divide the changein the vertical axis by the change in the horizontal axis.
The graph of distance vs. time suggests constant velocity if it is a straight line, while a curve on the graph implies changing velocity. The graph of distance vs. time squared suggests acceleration, as a linear relationship implies constant acceleration.
The graph of distance vs. time squared will usually be a curve rather than a straight line. This curve represents a non-uniform acceleration or changing velocity over time, as opposed to constant velocity where the graph would be a straight line. The shape of the curve will depend on the specific relationship between distance and time squared in the given scenario.
The slope of a distance vs. time graph represents the velocity of an object. Average speed is calculated by dividing the total distance traveled by the total time taken. If the object's velocity is constant, then the slope of the distance vs. time graph will be the same as the average speed.
A distance vs time graph for an object experiencing constant acceleration would be a straight line that curves upward, showing a steady increase in distance over time.
The distance vs time graph reveals the acceleration of an object by showing how the object's speed changes over time. A steeper slope on the graph indicates a greater acceleration, while a flatter slope indicates a slower acceleration or constant speed.
distance vs time suggests velocity while distance vs time squared suggests acceleration
The graph of distance vs. time suggests constant velocity if it is a straight line, while a curve on the graph implies changing velocity. The graph of distance vs. time squared suggests acceleration, as a linear relationship implies constant acceleration.
The graph of distance vs. time squared will usually be a curve rather than a straight line. This curve represents a non-uniform acceleration or changing velocity over time, as opposed to constant velocity where the graph would be a straight line. The shape of the curve will depend on the specific relationship between distance and time squared in the given scenario.
A distance vs time squared graph shows shows the relationship between distance and time during an acceleration. An example of an acceleration value would be 3.4 m/s^2. The time is always squared in acceleration therefore the graph can show the rate of which an object is moving
distance vs time suggests velocity while distance vs time squared suggests acceleration
A distance vs time squared graph shows shows the relationship between distance and time during an acceleration. An example of an acceleration value would be 3.4 m/s^2. The time is always squared in acceleration therefore the graph can show the rate of which an object is moving
:Troll:
distance vs time suggests velocity while distance vs time squared suggests acceleration
The dependent variable.
The slope of a time vs distance graph represents the speed or velocity of an object. It is calculated as the change in distance divided by the change in time. A steeper slope indicates a greater speed.
The curved line on a time vs. distance graph represents that the object is accelerating.
Since distance is 1/2 at^2 where a is acceleration, it represents one half of the acceleration