Artificial Earth 1.0

ARTIFICIAL EARTH 1.0

Climate change poses a significant threat to humanity, with its impacts ranging from food and water scarcity to increased flooding, extreme heat, and the spread of diseases. The World Health Organization has even labeled it as the greatest threat to global health in the 21st century. The main driver of climate change is human activity, particularly the burning of fossil fuels, which release heat-trapping gases into the atmosphere.

In order to address this pressing issue, the Earth 2.0 project aims to create an Artificial Earth 1.0. The estimated time for this project is four years, with a total cost estimation of 9,99,999 crores. The population estimation for this artificial Earth is 900 crores, with a total of 250 countries.

The project involves various aspects, including product manufacturing, installation, reconstruction, law and labor, waste management, and maintenance. The estimated costs for these aspects are 95,000 crores, 89,000 crores, 67,000 crores, 1,75,000 crores, 25,000 crores, and 45,000 crores per year, respectively.

To control climate change, several measures need to be implemented. These include the use of gas generators in every home to collect oxygen, power generators for storing electricity, food generator devices for generating food from chemicals and sunlight, and medicine generator devices for producing medicine using chemicals, sunlight, electric power, and gases. Additionally, sun light generators can be installed in homes for bathing purposes, and electric dustbins can be used to manage waste from gas, food, and medicine generators.

The architectural diagram of this Artificial Earth 1.0 includes various equipment such as artificial leaves, solar panels, electric storage tanks/batteries, chemical storage tanks, water storage tanks, current supplier machines/wire lines, chemical supplier/divider/filter machines, food generators, medicine generators, and electric dustbins.

The artificial leaf is a device that can harness sunlight to split water into hydrogen and oxygen. It requires chemicals such as silicon, cobalt, nickel, ordinary water, oxygen, and hydrogen. Solar panels, on the other hand, absorb sunlight and convert it into electricity or heat using crystalline silicon solar cells.

Electric storage tanks/batteries store the electric power generated by solar panels and distribute it to various electric and electronic devices. Chemical storage tanks hold chemicals such as silicon, cobalt, nickel, ordinary water, oxygen, hydrogen, magnesium, sulfur, potassium, calcium, copper, iron, manganese, phosphorus, selenium, sodium, and zinc.

The chemical supplier/divider/filter machine is responsible for dividing, filtering, and dispensing chemicals into the food and medicine generators, as well as supplying gases for home inhalers, sun light bathing tubes, and pets and gardens.

Water storage tanks hold drinking and sea water, which is collected from the artificial leaf and external sources. The current supplier machine/wire line is responsible for supplying electricity to various equipment.

Food and medicine generators utilize sunlight, chemicals, and manual inputs to generate food and medicine, which are stored in separate vessels. The electric dustbin collects waste from various sources and transforms it into ash using high voltage electric power.

The benefits of implementing this Artificial Earth 1.0 include reducing human time and effort, achieving economic freedom, employment freedom, free medicines and food, and cashless agriculture/farming.

In conclusion, the creation of an Artificial Earth 1.0 can help control climate change by reducing human time and effort, leading to a significant reduction in climate change impacts. By utilizing machines and chemicals to fulfill basic human needs such as food, water, electricity, farming, and medicine, we can effectively address this global challenge.