econ_AAiC_can_it_work_power_of_the_moon_to_clean_up_after

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 1-horsepower 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

here is other ideas as well

1 horsepower is equivalent to 746 watts.
So if you took a 1-horsepower 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 ???