I apologize, but I couldn't find specific information about the specific heat and latent heat of an RG7 bronze copper alloy in i am not an expert. RG7 bronze is a common copper alloy, but its specific heat and latent heat values may vary depending on the specific composition and manufacturing process.
However, I can provide you with some general information about the specific heat and latent heat of copper, which is the primary component of bronze alloys. The specific heat of copper is approximately 0.385 J/g°C (joules per gram per degree Celsius) or 0.092 cal/g°C (calories per gram per degree Celsius). This value represents the amount of heat energy required to raise the temperature of one gram of copper by one degree Celsius.
Regarding the latent heat, it depends on the phase transition you are referring to. The most common phase transition associated with copper is its transition from a solid to a liquid, which occurs at its melting point. The latent heat of fusion, also known as the heat of melting, for copper is approximately 205 J/g or 49 cal/g. This value represents the amount of heat energy required to convert one gram of solid copper at its melting point to one gram of liquid copper at the same temperature.
Please note that these values are approximate and can vary depending on the specific conditions and impurities present in the alloy. For precise information about the specific heat and latent heat of an RG7 bronze copper alloy, it would be best to consult technical specifications or contact the manufacturer or a materials engineering expert who specializes in copper alloys.