q=c(T2-T1)
The entropy of an ideal gas during an isothermal process may change because normally the entropy is a net zero. The change of on isothermal process can produce positive energy.
c = Q / (m(change in temperature)) Where, c = specific heat capacity Q = amount of heat needed m = mass Change in temperature = initial temperature - temperature(after) Take note that this equation cannot be used in calculating the change in state - melting and boiling Because temperature do not change. We therefore use: Q = lv x m Where, lv = latent heat of vapourisation (for boiling/condensation ONLY) m = mass Q = lf x m Where, lf = latent heat of fusion (for melting/freezing ONLY)
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The net process of photosynthesis is described by the following equation: 6CO2 + 6H2O + Light Energy = C6H12O6 + 6O2
The net heat is 1 195,78 kJ.
The entropy of an ideal gas during an isothermal process may change because normally the entropy is a net zero. The change of on isothermal process can produce positive energy.
Homeostasis is the process of changing the internal structure such that the net change is zero.
The oxidation of iron creates a net change of -1.65 E 3 kiloJoules of heat. 250 grams of iron is equal to 4.48 moles. There is then a net change of -1841 kiloJoules.
nova net appointments were based on party loyalty
nova net appointments were based on party loyalty
The forward and reverse reaction rates are equal. The concentrations of both products and reactants stop changing.
Process .... it is responsible for managing the execution of the .NET programs , it is the same as JVM is for JAVA programs...
Net acceleration = (change in velocity) divided by (time for the change)
The net refrigeration effect is the amount of heat each pound of refrigerant absorbs from the refrigerated space. This heat produces useful cooling.
ponddipping is the process of using a net in the water.
In this case, no heat will flow between the objects. At least, there will be no "net" heat flow. The objects are said to be in thermal equilibrium, so that any heat exchanged by their molecules is balanced and there is no net change in temperature.
No, it is net amount of energy in a close system is constant. Energy can change form from thermal to kinetic to electrical and so on. It is only the net amount of energy that is conserved in the close system.