Time is on the x-axis as it is the independent variable. The distance is the dependent variable as the distance travelled depends on how long the journey has been going. :)
it is a positive relationship
It represents that the object is remaining at a fixed distance. Typically that means it is not moving.Motion in a horizontal line by distance can be shown on a graph. This is what tells the Y-axis.
The answer depends on whether the graph is that of speed v time or distance v time.
It has increased.
It shows the speed of an object in a direction towards or away from the reference point. This is not the speed of the object because any motion in a transverse direction is ignored. For example, even if a racing car is going at top speed around the reference point on a circular track, the distance v time graph will be a horizontal line. The slope will be zero.
A bobsled's distance-time graph indicates that it traveled 100 m in 25 s. What is the bobsled's speed
That's the distance covered.
A bobsled's distance-time graph indicates that it traveled 100 m in 25 s. What is the bobsled's speed
A bobsled's distance-time graph indicates that it traveled 100 m in 25 s. What is the bobsled's speed
A bobsled's distance-time graph indicates that it traveled 100 m in 25 s. What is the bobsled's speed
A bobsled's distance-time graph indicates that it traveled 100 m in 25 s. What is the bobsled's speed
A bobsled's distance-time graph indicates that it traveled 100 m in 25 s. What is the bobsled's speed
A bobsled's distance-time graph indicates that it traveled 100 m in 25 s. What is the bobsled's speed
It tells you that the speed of the object is not changing. The speed is represented by the slope in a distance vs. time graph, if slope doesn't change, speed doesn't.
The distance travelled over the time period represented by the area under the v-t graph between the end points.
distance time graph is a graph traveled in a graph which shows how much we have traveled in equal period of time.
instantaneous acceleration* * * * *No it does not.The graph is a distance-time graph so the coordinates of a point on the graph represent the position (distance) at the specified time. The gradient of the tangent to the curve at that point represents the instantaneous radial velocity. The second derivative at that point, if it exists, would represent the acceleration.