energy = frequency (Hz) x speed of light (3.00x10^8)
E = I^2 * RT where E is energy,heat I is current R is resistence T is total time taken
If you are talking about mechanical energy, you can use the formulae for gravitational potential energy (if the water is in a raised position), or for kinetic energy (if it is moving).If you are talking about heat energy, you can use the formula for heat energy.
Quantities like potential energy, kinetic energy, heat, torque have same dimensional formulae, ie [ML2T-2]
That depends what type of potential energy you are talking about. Look at the formulae. For example, gravitational potential energy (in the simplest case) is calculated as mgh (mass x gravity x height), so it depends on those three factors.
To my knowledge, Albert Einstein was the first to publish a scientific paper on the concept of mass-energy conservation. This is most famously arranged into the formulae E=mc^2, where E is the quantity of energy, m the 'mass defect' (the amount of mass 'lost' or converted to energy) and c^2 the speed of light squared.
the formulae for gravitational potential energy is =mgh,wher m=mass g=10 m/s2 and h=height.incomplete question.u should mention the height of the hill.it will be =057*10*height of the hill
There are different formulae for calculating different kinds of energy.There are different formulae for calculating different kinds of energy.There are different formulae for calculating different kinds of energy.There are different formulae for calculating different kinds of energy.
There are several formulae involving work and energy. The basic definition of work (basically, mechanical energy) is: work = time x distance There are other formulae to calculate sound energy, electrical energy, light energy, etc.
6CO2 + 6H2O + energy from light ----> 6O2 + C6H12O6I hoped this helped!!
If you are talking about mechanical energy, you can use the formulae for gravitational potential energy (if the water is in a raised position), or for kinetic energy (if it is moving).If you are talking about heat energy, you can use the formula for heat energy.
What are the conventional formulae?
Conservation of Matter, Conservation of Energy, Conservation of Charge and Conservation of Momentum.
There are thousands of mathematical formulae.
Quantities like potential energy, kinetic energy, heat, torque have same dimensional formulae, ie [ML2T-2]
You will find several formulae in the Wikipedia article on "derivative".
Thermal energy can be transferred by conduction, convection, or radiation. The formulae for the rate of transfer - if that's what you are after - vary, depending on which type of transfer is predominant.
Different figures have different formulae; here you will find formulae for the areas of some figures: http://en.wikipedia.org/wiki/Area#Formulae
The formulae is: 1/2 x Mass (kg) x Velocity of object (m/s).