Q=0.75 g x 0.385 J/goC X 22OC
The chemical formula (not equation) of copper(II) sulfate is CuSO4.
To find the energy needed to raise the temperature of a substance, we can use the equation Q = mcΔT, where Q is the energy, m is the mass, c is the specific heat capacity, and ΔT is the change in temperature. For copper, the specific heat capacity is approximately 0.386 J/g°C. Converting the mass from grams to kilograms (50 g = 0.05 kg), we can plug in the values to calculate the energy: Q = (0.05 kg) * (0.386 J/g°C) * (30°C) = 0.579 J Therefore, you would need approximately 0.579 joules of energy to raise the temperature of 50 grams of copper by 30 degrees Celsius.
It depends on the temperature, however, at standard and room temperature, copper is a solid.
When sulphide ore is heated in air it is converted into copper oxide and SO2 is left. Again, copper oxide is then reduced to copper on heating( for equation, refer 10th CBSE text, pg no. 51)
63.6166 Relative abundance of Copper-63 is 69.17% and Copper-65 is 30.83%
Copper Loss at 75 C = Copper Loss at Ambient Temperature C * (310/(235+Ambient Temperature C))
Copper is not something that is calculated. The amount of copper might be, or copper losses / load losses, might be, but "copper" is not calculated.
Copper cloride is the word equation for copper and clorine hope this helps:)
A tiny, tiny amount. It is only plated with copper, it isn't of enough significant value to truly calculate.
If a mixture of the right amount of aluminum and copper is lit on fire at a high enough temperature then it can produce Thermite, which burns at an extremely high temperature.
69
One balanced equation for the reaction between elemental copper and silver nitrate is Cu + AgNO3 -> CuNO3 + Ag.
You go to the NEC and look at the chart for developed length and the ambient temperature and the load factor and if it solid or stranded wire as stranded allows for more voltage
The chemical formula (not equation) of copper(II) sulfate is CuSO4.
1 mole of Copper has a mass of 63.546 g. So, 14.5 moles will be 14.5 times that amount. Do the math.
The question is : A 2000W electric heater supplies energy to 0.5kg copper kettle containing 1kg of water. calculate time taken to raise the temperature by 10 degree
magnesium+copper