![Using Dimensional Analysis to Find the Quantity of a Substance Practice | Chemistry Practice Problems | Study.com Using Dimensional Analysis to Find the Quantity of a Substance Practice | Chemistry Practice Problems | Study.com](https://study.com/cimages/multimages/16/conversion_chart8444478195716729341.png)
Using Dimensional Analysis to Find the Quantity of a Substance Practice | Chemistry Practice Problems | Study.com
![One - gram mole of nitrogen occupies 2 × 10^4 cc at a pressure of 10^6 dynes/cm^2 . The average energy of a nitrogen molecule (in erg) will be: (Avogadro's number = 6 × 10^25 ) One - gram mole of nitrogen occupies 2 × 10^4 cc at a pressure of 10^6 dynes/cm^2 . The average energy of a nitrogen molecule (in erg) will be: (Avogadro's number = 6 × 10^25 )](https://dwes9vv9u0550.cloudfront.net/images/4331944/26fe57cc-2075-4bd6-9313-2d68b6738f22.jpg)
One - gram mole of nitrogen occupies 2 × 10^4 cc at a pressure of 10^6 dynes/cm^2 . The average energy of a nitrogen molecule (in erg) will be: (Avogadro's number = 6 × 10^25 )
The value of Gravitional cons†an t in MKS system is 6.67×10^ 11 N m^2/kg^2. What will be its value in CGS system
![In C.G.S. system the magnitude of the force is 100 dynes. In another system where the fundamental physical quantities are kilogram, metre and minute, the magnitude of the force isa)0.036b)0.36c)3.6d)36Correct answer is In C.G.S. system the magnitude of the force is 100 dynes. In another system where the fundamental physical quantities are kilogram, metre and minute, the magnitude of the force isa)0.036b)0.36c)3.6d)36Correct answer is](https://edurev.gumlet.io/ApplicationImages/Temp/3321869_c7bae4c0-f530-4722-ac68-c3aa1a4921d9_lg.png)