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
x axis = time, y axis = distance since magnitude of velocity (speed) = distance / time the gradient of a tangent of the line at any point represents instant magnitude of velocity (speed).
Yes, the motion of a projectile fired at an angle is an example of uniformly accelerated motion in the vertical direction due to gravity. In the horizontal direction, the motion is at a constant velocity unless affected by air resistance. Overall, the combination of these two motions results in a curved path known as a parabola.
Projectiles move in a curved path due to a combination of their initial velocity and the acceleration due to gravity. Gravity continuously acts on the projectile, causing it to follow a parabolic trajectory, even if it was given an initial velocity in a straight line.
One that changes. For example: you driving a car in a city.
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
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.
A bobsled's distance-time graph indicates that it traveled 100 m in 25 s. What is the bobsled's speed
Accelerated motion is represented by a curved line on a distance-time graph. This curvature indicates that the distance covered changes at a varying rate over time, reflecting the object's acceleration. If the object is accelerating uniformly, the curve will be a parabola. In contrast, a straight line indicates constant velocity, where the distance changes at a steady rate.
When a curved surface is represented on a flat surface, usually either distances or directions must be distorted. Various "projections" exist to minimize these distortions in whatever way is important to the cartographer.
In a nonlinear distance-time graph, accelerated motion is depicted by a curved line that indicates a change in the speed of the moving object over time. As the object accelerates, the slope of the curve increases, reflecting a rise in distance covered per unit of time. This contrasts with uniform motion, which is shown by a straight, diagonal line. Thus, the curvature of the line effectively conveys the varying velocity associated with acceleration.
A bobsled's distance-time graph indicates that it traveled 100 m in 25 s. What is the bobsled's speed
distorted....
The curved line on a time vs. distance graph represents that the object is accelerating.