7. Compare and contrast the dynamics of a cyclist riding along a velodrome track at a constant speed, to one who is freely rolling down the track/ramp (no friction). a. Construct free-body diagrams for each situation (angle = e). C. b. Draw a "dotted arrow" showing the direction of acceleration for each case on the FBD. Starting with FNET=ma (in the direction of "a"), determine an equation for "a" for each. Riding Biker Rolling Biker FBD's FNET = ma (in the direction of a) to solve for "a" Which has the bigger FN? ĺ 0
7. Compare and contrast the dynamics of a cyclist riding along a velodrome track at a constant speed, to one who is freely rolling down the track/ramp (no friction). a. Construct free-body diagrams for each situation (angle = e). C. b. Draw a "dotted arrow" showing the direction of acceleration for each case on the FBD. Starting with FNET=ma (in the direction of "a"), determine an equation for "a" for each. Riding Biker Rolling Biker FBD's FNET = ma (in the direction of a) to solve for "a" Which has the bigger FN? ĺ 0
College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
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Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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Compare and contrast the dynamics of a cyclist riding along a velodrome track at a constant speed, to one who is freely rolling down the track/ramp (no friction). a. Construct free-body diagrams for each situation (angle = ɵ). b. Draw a “dotted arrow” showing the direction of acceleration for each case on the FBD. c. Starting with FNET=ma (in the direction of “a”), determine an equation for “a” for each.
Transcribed Image Text:7. Compare and contrast the dynamics of a cyclist riding along a velodrome track at a constant
speed, to one who is freely rolling down the track/ramp (no friction).
a. Construct free-body diagrams for each situation (angle = e).
C.
b. Draw a "dotted arrow" showing the direction of acceleration for each case on the FBD.
Starting with FNET=ma (in the direction of "a"), determine an equation for "a" for each.
Riding Biker
Rolling Biker
FBD's
FNET = ma
(in the direction
of a)
to solve for "a"
Which has the
bigger FN?
0
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