What formula, developed by Albert Einstein, describes the relationship between energy and matter? "Nuclear reactions convert matter into energy. In 1905, Albert Einstein developed a formula that described the relationship between energy and matter. You have probably seen this famous equation, E=mc2. In the equation, the E represents energy and m represents mass. The c, which represents the speed of light, is a very large number. This equation states that when matter is changed into energy, an enormous amount of energy is released."
The relationship between energy usage and developed underdeveloped countries is that energy consumption is greater in developed countries than in underdeveloped countries. This may indicate that there is a strong link between energy consumption and economic development.
The relationship between the two is their energy source which is the sun.
there is a relationship they produce temperature.
A formula is something which shows a relationship between two or more things. A formula will contain variables and may also contain constants too and it tells us the relationship between them. The answer to the question is that you square a number if, and only if, the relationship between the variables (or constants) requires the number to be squared. For example in the famous formula e = mc2 , here we must square the constant, the speed of light in a vacuum (c), in order to calculate energy (e). It has to be squared because that constitutes the relationship between the values and there is no option to ignore that.
Exactly the same way you 'work out' a formula for electricity, ocean depth, population, speed in a car, or nuclear energy: You decide on the quantity to be found by your formula, then you decide on the information you'll have when you use the formula, and if there's a solid relationship between the two, then you write a statement that shows exactly how the relationship works.
It ends up with energy
Thermodynamics is the study of the relationship between thermal energy and heat and work.
There are none.
It ends up with energy
It ends up with energy
It ends up with energy