Calculating Deceleration of Man on Bicycle with Air Resistance

furor celtica · Sep 27, 2010

Homework Statement

A man on a bicycle, of total mass 100 kg, is free-wheeling at a constant speed of 15ms^-1 down a hill with a gradient 10% (i.e. sin^-1(0.10)). He wants to slow down to a safer speed, so he applies the brake lightly to produce a constant braking force of 84 N. The air resistance is proportional to the square of the speed.
a. Calculate the deceleration when he first applies the brake.

Homework Equations

The Attempt at a Solution

Several other questions follow.
Anyway the problem is the air resistance: in this model I know v^2 but I don’t know the constant k as in kv^2! I know how to solve these problems with k but without it I’m lost. Is there a way to work around the air resistance, i.e. without using k?

Stonebridge · Sep 27, 2010

As he is freewheeling at constant speed initially, we know that there is no resultant force on him. (No acceleration) This means that the air resistance must be exactly balanced by the component of the weight (man + cycle) down the slope.

Calculating Deceleration of Man on Bicycle with Air Resistance

Homework Statement

Homework Equations

The Attempt at a Solution

Related to Calculating Deceleration of Man on Bicycle with Air Resistance

What factors affect the deceleration of a person on a bicycle with air resistance?

How is deceleration due to air resistance calculated?

How does the cyclist's position on the bicycle affect deceleration?

Does the weight of the cyclist affect deceleration?

How can deceleration due to air resistance be minimized?

Similar threads

Hot Threads

Recent Insights