The most likely fusion reaction to be exploited for power production is between deuterium and tritium, both isotopes of hydrogen. Deuterium oxide is heavy water and can be produced from any source of natural water, the technology for this is well known, and obviously there are countless tons of it in the earth's water. Tritium does not occur in nature because it has a short half life, the best way to produce it is to irradiate lithium in a nuclear reactor, so to get tritium you need a supply of lithium, but there is enough known to be sure of many years supply, if not millions of years.
A reaction entirely between deuterium atoms is also possible but theoretically it is much less attractive, requiring more energy to start it and producing less energy output than the D-T one.
An electric kettle heats up water by using an electric heating element located at the bottom of the kettle. When the kettle is plugged in and turned on, the electric current passes through the heating element, generating heat. This heat transfers to the water, causing it to heat up and eventually boil.
Yes, a microwave is a resistive load as it converts electrical energy into heat through the resistance of its components. When plugged in, the microwave's heating element creates resistance to the flow of electricity, generating heat to cook food.
Yes, a hair dryer converts electric energy into heat through a heating element and motion through a fan. The heating element heats up when electricity passes through it, generating hot air. The fan then blows this hot air out of the hair dryer, providing both heat and motion.
The principal energy transformation in an electric kettle is electrical energy being converted into heat energy through the process of electrical resistance in the heating element. This allows the water in the kettle to heat up and eventually boil, generating steam.
A heater heats up a room by converting electrical energy into heat energy. This heat energy warms the air in the room, which then circulates and raises the overall temperature. The heating element inside the heater, usually made of metal coils or ceramic plates, is responsible for generating the heat.
Yes, an element is composed of millions of identical atoms.
The most likely fusion reaction to be exploited for power production is between deuterium and tritium, both isotopes of hydrogen. Deuterium oxide is heavy water and can be produced from any source of natural water, the technology for this is well known, and obviously there are countless tons of it in the earth's water. Tritium does not occur in nature because it has a short half life, the best way to produce it is to irradiate lithium in a nuclear reactor, so to get tritium you need a supply of lithium, but there is enough known to be sure of many years supply, if not millions of years. A reaction entirely between deuterium atoms is also possible but theoretically it is much less attractive, requiring more energy to start it and producing less energy output than the D-T one.
Uranium 238
The element that can stay radioactive for millions of years is plutonium. This is where most nuclear power plant energy comes from.
One element of the Ocala Demands was the call for improved working conditions for African American workers, including fair wages and better treatment in the workplace.
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Plutonium is the element named after the planet Pluto. It is a radioactive element with a half-life of thousands of years, not millions.
The heating element in a Whirlpool Duet dryer is responsible for generating heat to dry the clothes inside the dryer.
This element is einsteinium (Es).
The heating element in an oven is responsible for generating heat to cook or bake food by raising the temperature inside the oven to the desired level.
elements used in atomic energy are uranium , thorium , radium, plutonium,etc.
The heating element in a Speed Queen dryer is responsible for generating heat to dry the clothes by raising the temperature inside the dryer drum.