Help Solve Human Energy Problem - 50 kg Hiker Climbs 1000m Mountain

In summary, a hiker weighing 50 kg climbed a 1000m mountain in 3 hours. The average O2 consumption during the climb was 2x10^-3 m^3/min, equivalent to an energy expenditure of 4x10^4J/min. The remaining energy not used to overcome potential energy would appear as heat in the body.
  • #1
jmandas
10
0
human energy problem!

okay...i have this assignment that's due tomorrow morning so I'm begging for some help. There is only one problem that I'm totally lost on.

A 50 kg hiker climbs a mountain 1000m high in 3 hrs. Assuming the average O2 consumption during his climb was 2x10^-3 m^3/min(2 liters/min) corresponding to an energy expenditure of 4x10^4J/min, how much energy appears as heat in the body?

:cry:
Any help would be great...Thanks so much! :smile:
 
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  • #2
Calculate the total energy expenditure (Rate * climb time)

How much of this is used to overcome the potantial energy?

How much is left? What ever left should appear as heat in the body.
 
  • #3
thanks so much that worked
 

Related to Help Solve Human Energy Problem - 50 kg Hiker Climbs 1000m Mountain

1. What is the human energy problem?

The human energy problem refers to the challenge of finding sustainable and efficient sources of energy to meet the growing demand of the world's population. It is a complex issue that involves balancing economic, environmental, and social factors.

2. How does a 50 kg hiker climbing a 1000m mountain relate to the human energy problem?

The hiker's climb up the mountain requires a significant amount of physical energy, which is a form of human energy. This relates to the human energy problem because it highlights the limitations of human energy and the need for alternative sources of energy.

3. Why is it important to solve the human energy problem?

Solving the human energy problem is crucial for the sustainability and survival of our planet. As the world's population continues to grow and energy demands increase, it is essential to find sustainable and renewable sources of energy to reduce our reliance on non-renewable resources.

4. What are some potential solutions to the human energy problem?

Some potential solutions to the human energy problem include investing in renewable energy sources such as solar, wind, and hydro power, improving energy efficiency through technological advancements, and promoting sustainable practices and lifestyles.

5. How can individuals contribute to solving the human energy problem?

Individuals can contribute to solving the human energy problem by making small changes in their daily lives, such as using public transportation or carpooling, reducing energy consumption at home, and supporting companies and policies that prioritize renewable energy sources.

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