The heat generation formula used to calculate the amount of heat produced in a system is Q mcT, where Q represents the amount of heat produced, m is the mass of the substance, c is the specific heat capacity of the substance, and T is the change in temperature.
To calculate the efficiency of a heat engine, you can use the formula: Efficiency (Work output / Heat input) x 100. This formula compares the amount of useful work produced by the engine to the amount of heat energy it takes in. The efficiency is expressed as a percentage, with higher percentages indicating a more efficient engine.
The energy lost formula used to calculate the amount of energy dissipated in a system is: Energy Lost Initial Energy - Final Energy.
The energy loss formula used to calculate the amount of energy dissipated in a system is typically given by the equation: Energy loss Initial energy - Final energy.
The formula used to calculate the amount of energy carried by a beam of light is E hf, where E represents energy, h is Planck's constant, and f is the frequency of the light.
The irradiation formula used to calculate radiation exposure in a given area is: Exposure (E) Dose Rate (DR) x Time (T).
The gross primary productivity formula is: Gross Primary Productivity Rate of Photosynthesis - Rate of Respiration. This formula calculates the amount of energy produced by plants through photosynthesis in an ecosystem.
To calculate the efficiency of a heat engine, you can use the formula: Efficiency (Work output / Heat input) x 100. This formula compares the amount of useful work produced by the engine to the amount of heat energy it takes in. The efficiency is expressed as a percentage, with higher percentages indicating a more efficient engine.
The energy lost formula used to calculate the amount of energy dissipated in a system is: Energy Lost Initial Energy - Final Energy.
It is 100*(Amount at end of year / Amount at start of year - 1).
calculate the number of moles of carbon and of the other and by number of moles you can proceed further. the next step is that you divide by the smallest ratio. hence obtaining your empirical formula.
E = mc^2
Stoichiometry is used to calculate the amount of product produced by determining the relationship between the amounts of reactants and products in a chemical reaction based on the balanced equation. This involves converting the given amount of reactant to the amount of product using mole ratios from the balanced equation.
I would take the equation to calculate the new amount, and solve it for the original amount.
The energy loss formula used to calculate the amount of energy dissipated in a system is typically given by the equation: Energy loss Initial energy - Final energy.
In the equation N2+3H2=2NH3, the amount of ammonia produced from 50g of N would be 16.667g.
The formula used to calculate the amount of energy carried by a beam of light is E hf, where E represents energy, h is Planck's constant, and f is the frequency of the light.
Stoichiometry relates moles of reactant to moles of product, so if you have the amount of reactant in the equation, you can calculate the amount of product produced.