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A straight line.
The graph is a straight line whose slope is the acceleration of gravity.
Acceleration is how fast you get up to speed.
A straight slanted slope on a velocity-time graph indicates that the object is moving with a constant acceleration.
Exactly.
A graph that shows speed versus time is not an acceleration graph.The slope of the graph at any point is the acceleration at that time.A straight line shows that the acceleration is constant.
Speed can be shown on a graph of position versus time, and acceleration can be shown on a graph of speed versus time.
Indirectly, yes. If the graph is a straight line there is no acceleration, if the graph is not linear there is acceleration.
Constant.
The acceleration of the ball can be estimated by calculating the slope of the velocity versus time graph. If the graph is a straight line, the slope represents the acceleration. The steeper the slope, the greater the acceleration. If the graph is curved, the instantaneous acceleration can be estimated by finding the slope of the tangent line at a specific point on the curve.
The position versus time graph is parabolic.
A straight line.
The graph is a straight line whose slope is the acceleration of gravity.
No, the slope of a speed-versus-time graph represents the rate of change of speed, not acceleration. Acceleration is represented by the slope of a velocity-versus-time graph.
Acceleration is how fast you get up to speed.
A straight slanted slope on a velocity-time graph indicates that the object is moving with a constant acceleration.
The shape of a position versus time graph is parabolic when the object is undergoing constant acceleration. This acceleration results in a quadratic relationship between position and time, forming a parabolic curve.