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How much heat energy is required to raise the temperature of 0.358 of copper from 23.0 to 60.0 ? The specific heat of copper is 0.0920
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.
the copper sulphate i used at room temperature was blue.
Most Copper and its alloys is non magnetic at room temperature.
This would depend on the temperature of the water before you add the metal and what type of metal it is. if its copper it absorbs heat fast and would not change the temperature much but if you dropped lead into it then it would have to absorb more heat making the temperature lower than the copper. There are too many variables to answer the question.
How much heat energy is required to raise the temperature of 0.358 of copper from 23.0 to 60.0 ? The specific heat of copper is 0.0920
120.3 deg.c
The specific heat of a substance allows us to calculate the amount of heat energy required to change its temperature. Water has a specific heat nearly 11 times great than copper, therefore, water will take 11 times more energy to heat. Also water heats slowly and copper heats and cools rapidly.
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.
The rate will increase as the temperature increases. The dame is true for the opposite.
They are slowly replacing the use of thermocouples in many industrial applications below 600 °C, due to higher accuracy and repeatability.Common RTD sensing elements constructed of platinum copper or nickel have a unique, and repeatable and predictable resistance versus temperature relationship (R vs T) and operating temperature range. The R vs T relationship is defined as the amount of resistance change of the sensor per degree of temperature change.
No. Copper is a solid at room temperature.
Their mechanical material properties are very similar with copper coming out marginally higher in terms of yield strength. This is the amount of stress required to make the metal deform permanently.
the temperature acted as a catalyst and excited the atoms in the solvent to make it so that they were able to pick up the valence electrons that created the bonds in the copper sulfate faster
At the average room temperature of 24C, copper is a solid
the copper sulphate i used at room temperature was blue.
Most Copper and its alloys is non magnetic at room temperature.