econ_AAiC_can_it_work_power_of_the_moon_to_clean_up_after_factories.htm
the economic ideas is to use an economic formula to clean up
after companies
where it does not cost the customers any extra money
and it does not cost the company any extra money
the idea may only work for poor companies ... ???
the idea would require a self contained economic formula using
root based economics ... ???
people who might want to do it would be
people who are super passionate about cleaning up the
environment ... ???
these people would generate there own power for clean up
these people would grow their own crops,
build there own houses,
barter for cars, tools, etc.
it may be a good way to get a 4 year economics education from
a university ... ???
in which the class would be paid for by volunteering to clean
up after companies ... ???
a percentage of these ideas are really old ideas,
the ideas are still here in case something can be done with it
...
people
could use this energy to make tools to
clean
the water on the shore ???
people
could create an algebraic economy
within
an economy ???
to
supply power and tools to turn waste products
into
safe products for use in an economy ???
or
for storage for later generations to use as a product or
tool ... ???
Use the algebraic
economic power of the moon to clean the planet ???
of course you would need to check the math to make sure it is correct … but here is the idea
...
given ??? 




water weighs 62.5 pounds per
cubic foot ??? 
something that has no weight 


that displaces a cubic foot of
water 

could lift 60 pounds ??? 


1,000 
feet by 


1,000 
feet 






1,000,000 
square feet 






60 
lbs. of upward lift per cubic
foot 




60,000,000 
pounds of upward lift 






one horse can pull up 

330 
with a pulley ??? 







would be the same as 

181,818 
horses pulling on a steel cable
??? 
1 horsepower is equivalent to
746 watts. ??? 

So if you took a 1horsepower
horse and put it on a treadmill, 
it could operate a generator
producing a continuous 746 watts ??? 










1,000 
feet by 



1,000 
feet 








1,000,000 
square feet 













60 
lbs. of upward lift per cubic
foot ??? 

60,000,000 
pounds of upward lift ??? 








one horse can pull up 


330 
pounds with a pulley ??? 








would be the same as 


181,818 
horses pulling on a steel cable
??? 







one horse = 
746 
watts 


181,818 
horses = 
135,636,364 
watts of power 

200 
amp panel at full load is 







200 
amps x 



120 
volts 
= watts 
24000 






135,636,364 
watts total divided by 


24000 
watts per panel 


5,651.52 
electric panels 

or
5,651 24,000
watt generators ???

here is other ideas as well
1 horsepower is equivalent to
746 watts. 





So if you took a 1horsepower
horse and put it on a treadmill, 



it could operate a generator
producing a continuous 746 watts. 












so it is possible that 33 real
horses on a treadmill could equal the power of a
24,000 watt generator 
if the horses were to be worked
one hour and rested the rest 



you would need 







33 
horses 







24 
hours of shifts 















792 
you would need this many horses
??? 













how much food would you need for
the horses ??? 




how much area would you need for
the horses ??? 




if this is how you do your
algebraic economics math ??? 




you probably would need to be a
millionaire to be able to afford such a task ??? 











if customers who like to ride
horses, and the horses enjoyed carrying people 


you would have 
















792 
horses 







33 
minus working 






759 
horses available to give rides
to customers 














if you were able to charge 





1.04 
percent the cost of a ride 






then the electricity could
algebraically economically cost nothing ??? 


call home depot, ( or anywhere that
is comparable ) and
compare a 24000
watt generator that uses gas ???
how much does the generator cost ???
how much does it cost a month to
burn the gas ???

http://www.mageniemagic.com/