Work done on a stationary bicycle?

In summary, when cycling on a stationary bike, the person is still doing work by generating force with their legs to turn the pedals against a reactive force. However, the energy produced is mainly converted into heat, rather than distance. Work is still calculated using the equation Force * distance, but the distance in this case is the distance the pedals are moving. When cycling a regular bike on the road, the total force includes components such as air resistance and rolling resistance, which are already accounted for in the force calculation. Energy is always conserved, but the equations used to calculate its flow depend on the form of energy in the system.
  • #1
vizakenjack
57
4
So when someone is simply cycling on a stationary bike, is that person doing any work? Because work is Force * distance. But there's no distance here, right?

Is work simply the energy then?
 
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  • #2
vizakenjack said:
So when someone is simply cycling on a stationary bike, is that person doing any work? Because work is Force * distance. But there's no distance here, right?

Is work simply the energy then?
You are generating force with your legs to turn the pedals & crankshaft against a reactive force. Stationary bikes are designed to have a configurable resistance that they offer to your pedaling. :smile:
 
  • #3
Stationary exercise bikes usually turn the energy you produce into heat, perhaps heating a mass of air...

Work = mass * specific heat capacity * temperature change.
 
  • #4
CWatters said:
Work = mass * specific heat capacity * temperature change.
But I thought work had to have distance?

So how come, when you cycle a regular bicycle on a road, you don't account for temperature change? You just do F*distance
 
  • #5
vizakenjack said:
But I thought work had to have distance?
The pedals are moving.
 
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  • #6
vizakenjack said:
But I thought work had to have distance?

So how come, when you cycle a regular bicycle on a road, you don't account for temperature change? You just do F*distance

Energy is always conserved, its just converted from one form to another. The equations you can use to calculate the flow of energy in a system depends on the form of energy at that point in the system.

When you cycle a regular bike some of the total force is due to air resistance. Stirring the air heats it up. No need to account for this separately because its already included in the total force. Another part of the total force is due to rolling resistance an that heats the tyres. Again no need to account for that separately because its also included in the total force.
 
  • #7
Clearly there are times when you would like to know what fraction of force * distance is due to drag, rolling resistance, bearing friction etc and account for all the components separately.
 

1. What is the purpose of using a stationary bicycle?

The purpose of using a stationary bicycle is to provide a form of cardiovascular exercise. It is a low-impact activity that can improve heart health, strengthen leg muscles, and burn calories.

2. How is work defined when using a stationary bicycle?

Work is defined as the amount of force applied over a distance. In the context of using a stationary bicycle, it is the energy expended to pedal the bike against the resistance provided by the bike's settings.

3. How is work calculated on a stationary bicycle?

Work can be calculated by multiplying the force applied (measured in Newtons) by the distance traveled (measured in meters). This can be done using a force sensor and a distance tracker on the bike.

4. What factors affect the amount of work done on a stationary bicycle?

The amount of work done on a stationary bicycle can be affected by various factors such as the resistance level set on the bike, the speed at which the pedals are turned, the duration of the workout, and the individual's weight and fitness level.

5. Can using a stationary bicycle be considered a complete workout?

While using a stationary bicycle can provide a good cardiovascular workout, it is important to incorporate other forms of exercise to target different muscle groups and improve overall fitness. A well-rounded exercise routine should include strength training, stretching, and other forms of cardio.

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