specific heat and thermal conductivity of PEG600, Mn(NO3)2·6 H2O, Paraffin C13-C24
To find the specific heat and thermal conductivity of a substance, you typically need to consult reliable sources or databases that contain this information. Here are the steps to follow:
1. Search for a reliable source or database: Look for scientific journals, textbooks, or online resources that provide data on the specific heat and thermal conductivity of the substances you mentioned.
2. Access the appropriate source: Access the source that contains information about the specific heat and thermal conductivity of the compounds you are interested in. Journals like the Journal of Chemical & Engineering Data, or databases like the National Institute of Standards and Technology (NIST) can be good starting points.
3. Search for the specific substance: Once you have accessed the source, search for the specific substance you are interested in. In this case, search for "PEG600," "Mn(NO3)2·6 H2O," and "Paraffin C13-C24."
4. Retrieve the specific heat and thermal conductivity values: Within the source, you should find the specific heat and thermal conductivity values for the substances you are researching. Note that the specific heat is usually given in units of J/g°C (joules per gram-degree Celsius), while thermal conductivity is typically given in units of W/m°C (watts per meter-degree Celsius).
5. Analyze and record the data: Analyze the data you have retrieved and record the specific heat and thermal conductivity values for each substance.
It's important to note that the specific heat and thermal conductivity of substances may vary depending on factors such as temperature, pressure, and purity. Therefore, it is best to consult the most accurate and up-to-date sources to obtain reliable information.