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.
vt-v2
the body is in accelerated motion.
Motion directly either toward or away from the center is 'radial' motion. Motion where the distance from the center is constant is 'tangential' motion.
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
A bobsled's distance-time graph indicates that it traveled 100 m in 25 s. What is the bobsled's speed
what velocity is a taint by an object that is accelerated at .3om/s for the distance of 54m if its initial velocity is 50m/s
Constant motion has a constant speed, and accelerated motion has an accelerating speed! [getting faster] :)
vt-v2
no motion
The vertical component of the projectile's motion is uniformly accelerated, no matter what the angle of launch was.