There is no slope nor intercept because there is no equation, simply an expression.
The slope for a straight line graph is the ratio of the amount by which the graph goes up (the rise) for every unit that it goes to the right (the run). If the graph goes down, the slope is negative. For a curved graph, the gradient at any point is the slope of the tangent to the graph at that point.
The slope of a distance-time graph represents speed.
the slope.
The slope of the speed-vs-time graph is the magnitude of acceleration.
It shows the relationship of y in terms of x. [y = (yIntercept) + ((slope)*(x))] [slope = (y2 - y1)/(x2 - x1)]
There is no slope nor intercept because there is no equation, simply an expression.
The slope for a straight line graph is the ratio of the amount by which the graph goes up (the rise) for every unit that it goes to the right (the run). If the graph goes down, the slope is negative. For a curved graph, the gradient at any point is the slope of the tangent to the graph at that point.
acceleration
The slope of a velocity-time graph represents acceleration.
"Slope" is the steepness of the line on any graph.
The slope of a velocity-time graph represents acceleration.
The slope of a distance-time graph represents speed.
No, the slope on a position-time graph represents the object's velocity, not acceleration. Acceleration would be represented by the slope of the velocity-time graph.
If velocity is constant, the slope of the graph on a position vs. time graph will be a straight line. The slope of this line will represent the constant velocity of the object.
the slope.
You can write it either in standard form (ax + by = c) or in slope-intercept form (y = mx + b)