Energy niagra falls problem water

  • Thread starter Thread starter mshah3
  • Start date Start date
  • Tags Tags
    Energy Water
AI Thread Summary
The discussion centers on calculating the energy produced by falling water at Niagara Falls and the mass of water needed to generate one megawatt of power. The gravitational energy formula (mass × g × height) is used to determine that one kilogram of falling water produces approximately 441 joules of energy. To produce one megawatt (1,000,000 joules per second), it is calculated that approximately 2,267.57 kilograms of water must flow through the generators each second. Participants clarify their calculations and correct earlier mistakes regarding the relationship between energy, mass, and power. The final conclusion emphasizes the importance of accurate unit conversions in energy calculations.
mshah3
Messages
38
Reaction score
0
*problem:

In the Niagara Falls hydroelectric generating plant, the energy of falling water is converted into electricity. The height of the falls is about 45 meters. Assuming that the energy conversion is highly efficient, approximately how much energy is obtained from one kilogram of falling water? Therefore, approximately how many kilograms of water must go through the generators every second to produce a megawatt of power (106 watts)?

____kg/s

*formulas:

Gravitational energy = (mass) × g × (height).

*attempts:

I tried to find energy based on the fact one drop of water is one gram.
I ended up pluging in the values and got (45)(9.8) = 441
I found this to be incorrect.
Not sure how to relate mass to seconds to energy to height...
=/
 
Physics news on Phys.org
mgh = 1kg*9.8m/s^2*45m = 441 J for the first part was wrong?
 
well they ask for it in kg/s
is this the same units as joules?
 
mshah3 said:
well they ask for it in kg/s
is this the same units as joules?

that's the second part of the question... the first part is:

" how much energy is obtained from one kilogram of falling water?"
 
huh
well, there's only one answer to submit
i think they were simply restating the question to better explain

so are u saying that there are multiple steps to the problem or is it fine to say 441 J = 441 kg/s ?
 
mshah3 said:
huh
well, there's only one answer to submit
i think they were simply restating the question to better explain

so are u saying that there are multiple steps to the problem or is it fine to say 441 J = 441 kg/s ?

Oh, I think I see now. So 1 kg produces 441J.

You need to produce 106 mega watts = 106*10^6 J/s...

so in 1s you need to produce 106*10^6J ?

If 1kg produces 441J, how many kg produces 106*10^6J
 
so then:

x kg = (106E6) / (441) = 2.4036E5
 
mshah3 said:
so then:

x kg = (106E6) / (441) = 2.4036E5

exactly. 2.4036E5 kg/s is your answer.
 
i just submitted that
was incorrect
 
  • #10
mshah3 said:
i just submitted that
was incorrect

I'm sorry. I got confused with the power... for some reason I thought it was 106 megawatts...

the power is 1 megawatt = 10^6 watts = 10^6 J/s

so 10^6/441 = 2267.57

2267.57 kg/s. check yourself also to make sure this makes sense and there aren't any mistakes...
 

Similar threads

Energy niagra falls problem water
Replies
1
Views
4K
How Much Energy Does Falling Water Generate at Niagara Falls?
Replies
1
Views
12K
How Does a Dropped Ball Affect the Temperature of Water?
Replies
6
Views
3K
Conservation of Momentum Problem - Mechanical and Kinetic Energies
Replies
2
Views
901
Calculating Wave Amplitude & Wavelength in Water Pools
Replies
3
Views
2K
A fluid mechanics problem -- Shape of a falling water drop
Replies
8
Views
3K
Springs: Can they be used to conserve energy?
Replies
2
Views
2K
How does the energy loss change when blobbing on concrete instead of water?
Replies
7
Views
2K
How Much Power Can Niagara Falls Generate with 90% Efficiency?
Replies
4
Views
3K
Thermodynamics: Internal Energy, Heat and Work Problem
Replies
1
Views
2K

Hot Threads

Recent Insights

Back
Top