![SOLVED:(a) Show that 1 Pa 1 J/m3. (b) Show that the density in space of the translational kinetic energy of an ideal gas is 3P/2. SOLVED:(a) Show that 1 Pa 1 J/m3. (b) Show that the density in space of the translational kinetic energy of an ideal gas is 3P/2.](https://cdn.numerade.com/previews/7fe5d24d-c007-4362-b82e-1af6984180b5_large.jpg)
SOLVED:(a) Show that 1 Pa 1 J/m3. (b) Show that the density in space of the translational kinetic energy of an ideal gas is 3P/2.
![Basics of Vacuum Technology Unit: Pa = N/m 2 = J/m 3 UnitPa or N/m 2 bar10 5 mbar100 atm= 760 torr x ppt download Basics of Vacuum Technology Unit: Pa = N/m 2 = J/m 3 UnitPa or N/m 2 bar10 5 mbar100 atm= 760 torr x ppt download](https://slideplayer.com/5177526/16/images/slide_1.jpg)
Basics of Vacuum Technology Unit: Pa = N/m 2 = J/m 3 UnitPa or N/m 2 bar10 5 mbar100 atm= 760 torr x ppt download
![SOLVED:(a) Show that 1 Pa=1 J / m^3 . (b) Show that the density in space of the translational kinetic energy of an ideal gas is 3 P / 2. SOLVED:(a) Show that 1 Pa=1 J / m^3 . (b) Show that the density in space of the translational kinetic energy of an ideal gas is 3 P / 2.](https://cdn.numerade.com/previews/367626e9-376d-49d2-830d-667f604850ea.gif)
SOLVED:(a) Show that 1 Pa=1 J / m^3 . (b) Show that the density in space of the translational kinetic energy of an ideal gas is 3 P / 2.
![SOLVED: I just showed the conversion of 1Pa*m^3 to 1 J. My question is 1 kg*m^2/s^2 the same as 1kg*m^2/s^-2? Can you please give an explanation also? SOLVED: I just showed the conversion of 1Pa*m^3 to 1 J. My question is 1 kg*m^2/s^2 the same as 1kg*m^2/s^-2? Can you please give an explanation also?](https://cdn.numerade.com/ask_previews/f1386ab9-3e41-4b52-a807-b6a713590fc6_large.jpg)
SOLVED: I just showed the conversion of 1Pa*m^3 to 1 J. My question is 1 kg*m^2/s^2 the same as 1kg*m^2/s^-2? Can you please give an explanation also?
![GATEWAYS TO ART 3E PA W/JM3 Paperback by DeWitte, Debra J.; Larmann, Ralph M.; Shields, M. Kathryn: new Soft Cover (2018) | booksXpress GATEWAYS TO ART 3E PA W/JM3 Paperback by DeWitte, Debra J.; Larmann, Ralph M.; Shields, M. Kathryn: new Soft Cover (2018) | booksXpress](https://pictures.abebooks.com/inventory/30511562231.jpg)
GATEWAYS TO ART 3E PA W/JM3 Paperback by DeWitte, Debra J.; Larmann, Ralph M.; Shields, M. Kathryn: new Soft Cover (2018) | booksXpress
![A steel wire of length 5m is pulled to have an extension of 1mm. Its Y is 1.9 x 10 ^4 N/m ^2 . The energy per unit volume stored in it is A steel wire of length 5m is pulled to have an extension of 1mm. Its Y is 1.9 x 10 ^4 N/m ^2 . The energy per unit volume stored in it is](https://dwes9vv9u0550.cloudfront.net/images/3788606/bee53c2b-7d57-4d99-ae31-8fa61e155a3a.jpg)
A steel wire of length 5m is pulled to have an extension of 1mm. Its Y is 1.9 x 10 ^4 N/m ^2 . The energy per unit volume stored in it is
![A thermodynamic process is shown in the given figure. The pressures and volume corresponding to some points in the figure are:P A =3 × 104 Pa , P B =8 × 104 A thermodynamic process is shown in the given figure. The pressures and volume corresponding to some points in the figure are:P A =3 × 104 Pa , P B =8 × 104](https://search-static.byjusweb.com/question-images/byjus/infinitestudent-images/ckeditor_assets/pictures/646616/original_2.png)