The document describes a student project to design a prototype for generating electricity from soil. The objective is to utilize the ample global supply of soil, which contains electrons, as a cheap source of electricity. The proposed mechanism uses anodes and cathodes placed in soil containers to create an artificial electromagnetic field and induce electron flow, generating 0.5 mV per container. Connecting multiple containers in series outputs a total voltage of 6 volts, proving the concept's feasibility for addressing Bangladesh's electricity problems, especially in rural areas.

1. Project:
“Electricity Generation
From Soil.”
Course instructor:
RETHWAN FAIZ
Inventor& PRESENTER:
MD.SAMIUL ISLAM
Project Title:
Electricity Generation From
Soil
Earth Battery

2. Objective:
.
The objective of this project is to design a
prototype model for generating electricity
from Soil. As we have ample supply of soil
which is a good conductor for the flow of
electrons, that is why this project has been
envisioned as a cheap electric source.
Objective:
The objective of this project is to design a prototype model for
generating electricity from Soil. As we have ample supply of soil
which is a good conductor for the flow of electrons, that is why
this project has been envisioned as a cheap electric source.
Now a days Electricity is a part and parcel for us, we can’t do
anything without electricity. In Bangladesh load shedding is a
great problem for us but don’t have much resources to solve this
problem. If we can get utilize the ample supply of soil as a
resource to produce electricity, then our problem will get solved.
Any type of soil may be used to generate this electricity. It is very
cheap and this technique can be used by the government to
solve the electricity problem in the rural areas.
Now-a-day’s ELECTRICITY is a most popular in Bangladesh.
The people’s demand of electricity is growing up day by day but we
have no specific solution to solve this problem. The electricity
problem is become a National problem for our country.
Just for a single second we can’t think anything without
electricity. To build a Digital Bangladesh solve electricity problem is
the 1st condition.
Electricity is being a part and parcel for us, In Bangladesh
load shedding is a great problem for us but don’t have much
resources to solve this problem. If we can get utilize the ample
supply of soil as a resource to produce electricity, then our problem
will get solved. Only sticky type of soil is suitable and sustainable
used to generate electricity. It is very cheap and this technique can
be used by the government to solve the electricity problem in the
rural areas.
s1: idea description

3. Introduction:
I was invented the Mechanism to generate electricity from soil. The
soil is one of the source of electricity and it contains a huge amount
of electrons. But the electrons remains stable in the soil. So by
making the electrons move electricity can be produced. I was
created a magnetic field to make the electrons move by using
Anode and Cathode and he used Copper as anode and Aluminium
as cathode. I used an anode and cathode in every soil container and
created a series circuit by connecting wires. Each container has
individual voltages and by adding them all Electricity is produced.
This is a very creative and innovative project. With the inclusion of a
converter, the output voltage can be used to energize any mobile
device. This is definitely a cost effective solution which will be very
beneficial for the upcoming future.
I was invented the mechanism to generate electricity from soil.
The soil is behaving as one of the source of electricity and it
contains a huge amount of electrons. But the electrons always
remains stable under the ground because of the potential
difference of ground is = 0. So, by making these electrons moving
to create an Artificial Electro-Magnetic Field (AEMF) electricity
can be produced. I was created an Artificial Electro-Magnetic
Field (AEMF) to do force the electrons for moving by using Anode
and Cathode as dipole electrode. Here I used Copper as Anode
and Aluminum as Cathode. In this case under a soil container
Anode attracts the electrons cause of Anode carrying (+ve) charge
and the Cathode repels the electrons cause Cathode carrying (-
ve) for its Attract-Repel condition of charges.
s2: relevance
I was invented the mechanism to generate electricity from soil. The soil
is behaving as one of the source of electricity and it contains a huge
amount of electrons. But the electrons always remains stable under the
ground because of the potential difference of ground is = 0. So, by
making these electrons moving to create an Artificial Electro-Magnetic
Field (AEMF) electricity can be produced. I was created an Artificial
Electro-Magnetic Field (AEMF) to do force the electrons for moving by
using Anode and Cathode as dipole electrode. Here I used Copper as
Anode and Aluminum as Cathode. In this case under a soil container
Anode attracts the electrons cause of Anode carrying (+ve) charge and
the Cathode repels the electrons cause Cathode carrying (-ve) for its
Attract-Repel condition of charges. I used an Anode and a Cathode in
every soil container and creates a series circuit by maintaining a definite
distance which all of them are connected with connecting copper wires.
Each container creates an individual voltages which amount is above:
0.500 mV per soil container and by adding them in series connection

4. s3: feasibility
My project idea is all about, Electricity Generation From Soil.
At present day's we produced electricity from Coal, Gas, Oil etc. but
it all's are mineral resources which all of them are contains in soil.
On the other hand we know that soil contains a huge amount of
electrons which is remains stable on it's position, physics say's that
when electrons are starting to move then electricity moves just it's
opposite direction. So easily we can say's that soil contains the huge
amount of electrons which is the cause of electricity flow, then
somehow if we will be able to move the huge amount of electrons
which contains soil, then we can get a huge amount of electricity.
Day by day our technology get enrich because of our thinking
about science. After 100 year's when we don't have any mineral
resources to produce electricity, then what can we do? The solution
is soil electricity. It's a cost effective solution and harmless process to
solve our electricity problem for a better future to the world.

5. The calculation of the submitted theory and results
Now the Aggregate of all blocks voltages are:
BLOCK:1+ BLOCK:2 + BLOCK:3 + BLOCK:4 + BLOCK:5 + BLOCK:6 + BLOCK:7 + BLOCK:8 +
BLOCK:9
=[0.60+0.65+0.70+0.75+0.64+0.61+0.60+0.75+0.70] Volt
=6.00 VOLT
Result: 6.00 VOLT output
Proved by: MD.SAMIUL ISLAM BORNO
I used Copper as Anode and Aluminum as Cathode. In this
case under a soil container Anode attracts the electrons cause of
Anode carrying (+ve) charge and the Cathode repels the electrons
cause Cathode carrying (-ve) for its Attract-Repel condition of
charges. I used an Anode and a Cathode in every soil container and
creates a series circuit by maintaining a definite distance which all
of them are connected with connecting copper wires. Each
container creates an individual voltages which amount is above:
0.500 mV per soil container and by adding them in series
connection then Electricity is producing.
This is a very creative and innovative project. This is
definitely a cost effective solution which will be very beneficial for
the upcoming future and also solve the electricity problem. It is
producing green energy which is totally harmless process and also
producing electricity without creates any kind of environment
s4: functionality

6. Experimental theory:
The voltage across each container has been measured and
later the terminal voltage across the whole setup has been
measured. After several setups, the minimum and maximum
value obtained are 3.90V and 4.20V. This voltage depends
on the following features:
01. Distance between the Anode and the Cathode within each
Container.
02. Voltages increases or decreases effect depends on temperature,
03. Properties of Anode and Cathode,
04. Number of turns of coil in the anode and cathode,
Soil property, and
05. Total number of container.
Experimental theory:
The voltage across each container has been measured and later
the terminal voltage across the whole setup has been measured.
After several setups, the minimum and maximum value obtained
are 6.00 volt This voltage depends on the following features:
01. Distance between Anode and Cathode within each Container.
02. Voltages increases or decreases effect depends on temperature,
03. Properties of Anode and Cathode,
04. Number of turns of coil in the anode and cathode,
Soil property, and
05. Total number of container.
C5: Technical merits5: TECHNICAL MECHANISM

7. s6: CELL-VOLTAGE CALCULATION

8. s7: ONLINE ARTICLE REVIEW

9. s8: PROJECT VOLTAGE FACTS

10. s9: PER-CELL VOLTAGE

11. s10: experimental calculation

12. s11: speed of electrons

13. s12: project energy loss

14. s13: lead-acid battery vs earth-battery

15. s14: negative impact of acid-battery

16. s15: snapshot of earth-battery

17. s16: FUTURE RESEARCH