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- https://chem.libretexts.org/Courses/Los_Angeles_Trade_Technical_College/Hybrid_Chem_51_v1/07%3A_Gases/6.3_Gas_Laws_-_Boyle's_and_Charles'_LawsThe behavior of gases can be modeled with gas laws. Boyle’s law relates a gas’s pressure and volume at constant temperature and amount. Charles’s law relates a gas’s volume and temperature at constant...The behavior of gases can be modeled with gas laws. Boyle’s law relates a gas’s pressure and volume at constant temperature and amount. Charles’s law relates a gas’s volume and temperature at constant pressure and amount. In gas laws, temperatures must always be expressed in kelvins.
- https://chem.libretexts.org/Courses/Los_Angeles_Trade_Technical_College/LATTC_Hybrid_Chem_51/06%3A_Gases/6.3%3A_Gas_Laws_-_Boyle's_and_Charle's_LawsThe behavior of gases can be modeled with gas laws. Boyle’s law relates a gas’s pressure and volume at constant temperature and amount. Charles’s law relates a gas’s volume and temperature at constant...The behavior of gases can be modeled with gas laws. Boyle’s law relates a gas’s pressure and volume at constant temperature and amount. Charles’s law relates a gas’s volume and temperature at constant pressure and amount. In gas laws, temperatures must always be expressed in kelvins.
- https://chem.libretexts.org/Courses/Fullerton_College/Introductory_Chemistry_for_Allied_Health_(Chan)/17%3A_Gases/17.04%3A_Gas_LawsThe behavior of gases can be modeled with gas laws. Boyle's law relates a gas's pressure and volume at constant temperature and amount. Charles's law relates a gas's volume and temperature at constant...The behavior of gases can be modeled with gas laws. Boyle's law relates a gas's pressure and volume at constant temperature and amount. Charles's law relates a gas's volume and temperature at constant pressure and amount. In gas laws, temperatures must always be expressed in kelvins.
- https://chem.libretexts.org/Courses/Los_Angeles_Trade_Technical_College/DMA_Chem_51/2%3A_Beginning_Chemistry_(Ball)/06%3A_Gases/6.4%3A_Gas_LawsThe behavior of gases can be modeled with gas laws. Boyle’s law relates a gas’s pressure and volume at constant temperature and amount. Charles’s law relates a gas’s volume and temperature at constant...The behavior of gases can be modeled with gas laws. Boyle’s law relates a gas’s pressure and volume at constant temperature and amount. Charles’s law relates a gas’s volume and temperature at constant pressure and amount. In gas laws, temperatures must always be expressed in kelvins.
- https://chem.libretexts.org/Bookshelves/Introductory_Chemistry/Beginning_Chemistry_(Ball)/06%3A_Gases/6.04%3A_Gas_LawsThe behavior of gases can be modeled with gas laws. Boyle's law relates a gas's pressure and volume at constant temperature and amount. Charles's law relates a gas's volume and temperature at constant...The behavior of gases can be modeled with gas laws. Boyle's law relates a gas's pressure and volume at constant temperature and amount. Charles's law relates a gas's volume and temperature at constant pressure and amount. In gas laws, temperatures must always be expressed in kelvins.
- https://chem.libretexts.org/Courses/can/CHEM_210%3A_General_Chemistry_I_(An_Atoms_Up_Approach)/14%3A_Gases/14.02%3A_The_Gas_LawsThe behavior of gases can be modeled with gas laws. Boyle's law relates a gas's pressure and volume at constant temperature and amount. Charles's law relates a gas's volume and temperature at constant...The behavior of gases can be modeled with gas laws. Boyle's law relates a gas's pressure and volume at constant temperature and amount. Charles's law relates a gas's volume and temperature at constant pressure and amount. In gas laws, temperatures must always be expressed in kelvins.
- https://chem.libretexts.org/Courses/Fullerton_College/Beginning_Chemistry_(Chan)/08%3A_Gases/8.04%3A_Gas_LawsThe behavior of gases can be modeled with gas laws. Boyle's law relates a gas's pressure and volume at constant temperature and amount. Charles's law relates a gas's volume and temperature at constant...The behavior of gases can be modeled with gas laws. Boyle's law relates a gas's pressure and volume at constant temperature and amount. Charles's law relates a gas's volume and temperature at constant pressure and amount. In gas laws, temperatures must always be expressed in kelvins.
- https://chem.libretexts.org/Bookshelves/Physical_and_Theoretical_Chemistry_Textbook_Maps/Physical_Chemistry_(Fleming)/05%3A_The_Second_Law/5.04%3A_Calculating_Entropy_ChangesThis page explains how to calculate entropy changes for different thermodynamic processes, such as isothermal, isobaric, isochoric, adiabatic changes, and phase transitions. It provides formulas for t...This page explains how to calculate entropy changes for different thermodynamic processes, such as isothermal, isobaric, isochoric, adiabatic changes, and phase transitions. It provides formulas for the entropy change in each case and includes examples to illustrate the calculations.
- https://chem.libretexts.org/Bookshelves/Physical_and_Theoretical_Chemistry_Textbook_Maps/Physical_Chemistry_(Fleming)/06%3A_Putting_the_Second_Law_to_Work/6.08%3A_The_Difference_between_Cp_and_CvThe document explains the derivation of an expression for the difference between constant pressure and constant volume heat capacities (C_p - C_V). It begins by defining these capacities in terms of e...The document explains the derivation of an expression for the difference between constant pressure and constant volume heat capacities (C_p - C_V). It begins by defining these capacities in terms of enthalpy (H) and internal energy (U), then manipulates these definitions using the properties of various thermodynamic quantities (??, ?????, etc.).
- https://chem.libretexts.org/Bookshelves/Physical_and_Theoretical_Chemistry_Textbook_Maps/Physical_Chemistry_(LibreTexts)/19%3A_The_First_Law_of_Thermodynamics/19.08%3A_Pressure-Volume_WorkThis page explains enthalpy (H) as a state function defined by H = U + PV, emphasizing its significance in heat exchange at constant pressure. It notes the relevance of pressure-volume work for gases ...This page explains enthalpy (H) as a state function defined by H = U + PV, emphasizing its significance in heat exchange at constant pressure. It notes the relevance of pressure-volume work for gases and other work forms for different systems. The derivation indicates that ΔH relates to heat added (q_P), making enthalpy easier to measure than internal energy. The relationship between U and H is highlighted, particularly for gases, while they are approximately equal for condensed matter.
- https://chem.libretexts.org/Bookshelves/Physical_and_Theoretical_Chemistry_Textbook_Maps/Physical_Chemistry_(LibreTexts)/21%3A_Entropy_and_the_Third_Law_of_Thermodynamics/21.05%3A_Practical_Absolute_Entropies_Can_Be_Determined_CalorimetricallyThis page explains the calculation of absolute entropy for substances, using carbon dioxide as an example. It outlines two key equations for entropy change, applicable at constant pressure and during ...This page explains the calculation of absolute entropy for substances, using carbon dioxide as an example. It outlines two key equations for entropy change, applicable at constant pressure and during phase transitions, utilizing calorimetric data. The process involves integrating heat capacities and considering phase changes to determine absolute entropy at various temperatures, with a specific calculation for CO2 at 300 K included.
