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22.4: Fundamental Physical Constants

https://chem.libretexts.org/Courses/CSU_San_Bernardino/CHEM_2100%3A_General_Chemistry_I_(Mink)/22%3A_Appendices/22.04%3A_Fundamental_Physical_Constants

Table: Fundamental Physical Constants Boltzmann’s constant (k) charge-to-mass ratio for electron (e/m e ) 1.75881962 × × 10 11 C kg −1 fundamental unit of charge (e) electron rest mass (m e ) 9.648530...Table: Fundamental Physical Constants Boltzmann’s constant (k) charge-to-mass ratio for electron (e/m e ) 1.75881962 × × 10 11 C kg −1 fundamental unit of charge (e) electron rest mass (m e ) 9.6485309 × × 10 4 C mol −1 gas constant (R) 8.205784 × × 10 −2 L atm mol −1 K −1 = 8.314510 J mol −1 K −1 molar volume of an ideal gas, 1 atm, 0 °C 22.41409 L mol –1 molar volume of an ideal gas, 1 bar, 0 °C 22.71108 L mol –1 neutron rest mass (m n ) proton rest mass (m p ) speed of light (in vacuum) (c)

11.3: Fundamental Physical Constants

https://chem.libretexts.org/Courses/Widener_University/Chem_145%3A_General_Chemistry_I_(van_Bramer)/11%3A_Appendices/11.03%3A_Fundamental_Physical_Constants

Fundamental Physical Constants Boltzmann’s constant (k) charge-to-mass ratio for electron (e/m e ) 1.75881962 × 10 11 C kg −1 electron rest mass (m e ) 9.6485309 × 10 4 C mol −1 gas constant (R) 8.205...Fundamental Physical Constants Boltzmann’s constant (k) charge-to-mass ratio for electron (e/m e ) 1.75881962 × 10 11 C kg −1 electron rest mass (m e ) 9.6485309 × 10 4 C mol −1 gas constant (R) 8.205784 × 10 −2 L atm mol −1 K −1 = 8.314510 J mol −1 K −1 molar volume of an ideal gas, 1 atm, 0 °C 22.41409 L mol –1 molar volume of an ideal gas, 1 bar, 0 °C 22.71108 L mol –1 neutron rest mass (m n ) proton rest mass (m p ) speed of light (in vacuum) (c)

7.4: Fundamental Physical Constants

https://chem.libretexts.org/Courses/Nassau_Community_College/General_Chemistry_II/07%3A_Appendices/7.04%3A_Fundamental_Physical_Constants

Fundamental Physical Constants Boltzmann’s constant (k) charge-to-mass ratio for electron (e/m e ) 1.75881962 × 10 11 C kg −1 electron rest mass (m e ) 9.6485309 × 10 4 C mol −1 gas constant (R) 8.205...Fundamental Physical Constants Boltzmann’s constant (k) charge-to-mass ratio for electron (e/m e ) 1.75881962 × 10 11 C kg −1 electron rest mass (m e ) 9.6485309 × 10 4 C mol −1 gas constant (R) 8.205784 × 10 −2 L atm mol −1 K −1 = 8.314510 J mol −1 K −1 molar volume of an ideal gas, 1 atm, 0 °C 22.41409 L mol –1 molar volume of an ideal gas, 1 bar, 0 °C 22.71108 L mol –1 neutron rest mass (m n ) proton rest mass (m p ) speed of light (in vacuum) (c)

11.4: Fundamental Physical Constants

https://chem.libretexts.org/Courses/Widener_University/Widener_University%3A_Chem_135/11%3A_Appendices/11.04%3A_Fundamental_Physical_Constants

Fundamental Physical Constants Boltzmann’s constant (k) charge-to-mass ratio for electron (e/m e ) 1.75881962 × 10 11 C kg −1 electron rest mass (m e ) 9.6485309 × 10 4 C mol −1 gas constant (R) 8.205...Fundamental Physical Constants Boltzmann’s constant (k) charge-to-mass ratio for electron (e/m e ) 1.75881962 × 10 11 C kg −1 electron rest mass (m e ) 9.6485309 × 10 4 C mol −1 gas constant (R) 8.205784 × 10 −2 L atm mol −1 K −1 = 8.314510 J mol −1 K −1 molar volume of an ideal gas, 1 atm, 0 °C 22.41409 L mol –1 molar volume of an ideal gas, 1 bar, 0 °C 22.71108 L mol –1 neutron rest mass (m n ) proton rest mass (m p ) speed of light (in vacuum) (c)

12.4: Fundamental Physical Constants

https://chem.libretexts.org/Courses/Nassau_Community_College/General_Chemistry_1/12%3A_Appendices/12.04%3A_Fundamental_Physical_Constants

Fundamental Physical Constants Boltzmann’s constant (k) charge-to-mass ratio for electron (e/m e ) 1.75881962 × 10 11 C kg −1 electron rest mass (m e ) 9.6485309 × 10 4 C mol −1 gas constant (R) 8.205...Fundamental Physical Constants Boltzmann’s constant (k) charge-to-mass ratio for electron (e/m e ) 1.75881962 × 10 11 C kg −1 electron rest mass (m e ) 9.6485309 × 10 4 C mol −1 gas constant (R) 8.205784 × 10 −2 L atm mol −1 K −1 = 8.314510 J mol −1 K −1 molar volume of an ideal gas, 1 atm, 0 °C 22.41409 L mol –1 molar volume of an ideal gas, 1 bar, 0 °C 22.71108 L mol –1 neutron rest mass (m n ) proton rest mass (m p ) speed of light (in vacuum) (c)

Appendix D: Fundamental Physical Constants

https://chem.libretexts.org/Bookshelves/General_Chemistry/Chemistry_2e_(OpenStax)/22%3A_Appendices/Appendix_D%3A_Fundamental_Physical_Constants

Table: Fundamental Physical Constants Boltzmann’s constant (k) charge-to-mass ratio for electron (e/m e ) 1.75881962 × 10 11 C kg −1 fundamental unit of charge (e) electron rest mass (m e ) 9.6485309 ...Table: Fundamental Physical Constants Boltzmann’s constant (k) charge-to-mass ratio for electron (e/m e ) 1.75881962 × 10 11 C kg −1 fundamental unit of charge (e) electron rest mass (m e ) 9.6485309 × 10 4 C mol −1 gas constant (R) 8.205784 × 10 −2 L atm mol −1 K −1 = 8.314510 J mol −1 K −1 molar volume of an ideal gas, 1 atm, 0 °C 22.41409 L mol –1 molar volume of an ideal gas, 1 bar, 0 °C 22.71108 L mol –1 neutron rest mass (m n ) proton rest mass (m p ) speed of light (in vacuum) (c)

13.4: Fundamental Physical Constants

https://chem.libretexts.org/Courses/Widener_University/CHEM_175_-_General_Chemistry_I_(Van_Bramer)/13%3A_Appendices/13.04%3A_Fundamental_Physical_Constants

Fundamental Physical Constants Boltzmann’s constant (k) charge-to-mass ratio for electron (e/m e ) 1.75881962 × 10 11 C kg −1 electron rest mass (m e ) 9.6485309 × 10 4 C mol −1 gas constant (R) 8.205...Fundamental Physical Constants Boltzmann’s constant (k) charge-to-mass ratio for electron (e/m e ) 1.75881962 × 10 11 C kg −1 electron rest mass (m e ) 9.6485309 × 10 4 C mol −1 gas constant (R) 8.205784 × 10 −2 L atm mol −1 K −1 = 8.314510 J mol −1 K −1 molar volume of an ideal gas, 1 atm, 0 °C 22.41409 L mol –1 molar volume of an ideal gas, 1 bar, 0 °C 22.71108 L mol –1 neutron rest mass (m n ) proton rest mass (m p ) speed of light (in vacuum) (c)

10.4: Appendix D- Fundamental Physical Constants

https://chem.libretexts.org/Courses/Smith_College/CHM_118%3A_Advanced_General_Chemistry_(Strom)/10%3A_Appendices/10.04%3A_Appendix_D-_Fundamental_Physical_Constants

Table: Fundamental Physical Constants Boltzmann’s constant (k) charge-to-mass ratio for electron (e/m e ) 1.75881962 × 10 11 C kg −1 fundamental unit of charge (e) (charge on electron) electron rest m...Table: Fundamental Physical Constants Boltzmann’s constant (k) charge-to-mass ratio for electron (e/m e ) 1.75881962 × 10 11 C kg −1 fundamental unit of charge (e) (charge on electron) electron rest mass (m e ) 9.6485309 × 10 4 C mol −1 gas constant (R) 8.205784 × 10 −2 L atm mol −1 K −1 = 8.314510 J mol −1 K −1 molar volume of an ideal gas, 1 atm, 0 °C 22.41409 L mol –1 molar volume of an ideal gas, 1 bar, 0 °C neutron rest mass (m n ) proton rest mass (m p ) speed of light (in vacuum) (c)

7.2: Fundamental Physical Constants

https://chem.libretexts.org/Courses/City_College_of_San_Francisco/Foundations_-_Review_Source_for_Chem_101A/06%3A_Appendices/7.02%3A_Fundamental_Physical_Constants

Fundamental Physical Constants Boltzmann’s constant (k) charge-to-mass ratio for electron (e/m e ) 1.75881962 × 10 11 C kg −1 electron rest mass (m e ) 9.6485309 × 10 4 C mol −1 gas constant (R) 8.205...Fundamental Physical Constants Boltzmann’s constant (k) charge-to-mass ratio for electron (e/m e ) 1.75881962 × 10 11 C kg −1 electron rest mass (m e ) 9.6485309 × 10 4 C mol −1 gas constant (R) 8.205784 × 10 −2 L atm mol −1 K −1 = 8.314510 J mol −1 K −1 molar volume of an ideal gas, 1 atm, 0 °C 22.41409 L mol –1 molar volume of an ideal gas, 1 bar, 0 °C 22.71108 L mol –1 neutron rest mass (m n ) proton rest mass (m p ) speed of light (in vacuum) (c)

11.3: Fundamental Physical Constants

https://chem.libretexts.org/Courses/Widener_University/CHEM_145%3A_FA22_Van_Bramer/11%3A_Appendices/11.03%3A_Fundamental_Physical_Constants

Fundamental Physical Constants Boltzmann’s constant (k) charge-to-mass ratio for electron (e/m e ) 1.75881962 × 10 11 C kg −1 electron rest mass (m e ) 9.6485309 × 10 4 C mol −1 gas constant (R) 8.205...Fundamental Physical Constants Boltzmann’s constant (k) charge-to-mass ratio for electron (e/m e ) 1.75881962 × 10 11 C kg −1 electron rest mass (m e ) 9.6485309 × 10 4 C mol −1 gas constant (R) 8.205784 × 10 −2 L atm mol −1 K −1 = 8.314510 J mol −1 K −1 molar volume of an ideal gas, 1 atm, 0 °C 22.41409 L mol –1 molar volume of an ideal gas, 1 bar, 0 °C 22.71108 L mol –1 neutron rest mass (m n ) proton rest mass (m p ) speed of light (in vacuum) (c)

22.4: Fundamental Physical Constants

https://chem.libretexts.org/Courses/CSU_San_Bernardino/CHEM_2200%3A_General_Chemistry_II_(Mink)/22%3A_Appendices/22.04%3A_Fundamental_Physical_Constants

Table: Fundamental Physical Constants Boltzmann’s constant (k) charge-to-mass ratio for electron (e/m e ) 1.75881962 × × 10 11 C kg −1 fundamental unit of charge (e) electron rest mass (m e ) 9.648530...Table: Fundamental Physical Constants Boltzmann’s constant (k) charge-to-mass ratio for electron (e/m e ) 1.75881962 × × 10 11 C kg −1 fundamental unit of charge (e) electron rest mass (m e ) 9.6485309 × × 10 4 C mol −1 gas constant (R) 8.205784 × × 10 −2 L atm mol −1 K −1 = 8.314510 J mol −1 K −1 molar volume of an ideal gas, 1 atm, 0 °C 22.41409 L mol –1 molar volume of an ideal gas, 1 bar, 0 °C 22.71108 L mol –1 neutron rest mass (m n ) proton rest mass (m p ) speed of light (in vacuum) (c)

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