No, It's totally different.
1M of K2Cr2O7 is 294.19g/water 1L
on the other hands, 1N of K2Cr2O7 is 49.04 g/ water 1L
Yes, it is true.
The normality and molarity are not equal in any state because molarity provides information on the number of molecules while normality provides information on the number of reactive units.
H2SO4 releases two hydrogen ions into solution. Therefore its Normality is twice its Molarity. Or to answer the question, the molarity is half the normality.
8N
The unit for normality is N, or mol/LN or mol/Lit is the unit
yes
Yes, it is true.
through molarity,molality, normality. through molarity,molality, normality.
Molarity equals normality when the equivalence factor = 1.
The normality and molarity are not equal in any state because molarity provides information on the number of molecules while normality provides information on the number of reactive units.
H2SO4 releases two hydrogen ions into solution. Therefore its Normality is twice its Molarity. Or to answer the question, the molarity is half the normality.
8N
One equivalent proton per mole, so molarity is equal to normality.
The unit for normality is N, or mol/LN or mol/Lit is the unit
Molarity is concentration in moles/L (symbolized by M). Molality is a different way of expressing molarity, but in moles of solute/mass of solvent in mol/kg (symbol m). Normality is molarity x number of equivalents (symbolized by N). Equivalents are the ions that it would dissociate into (H+, OH-, e-, etc.)
The HCL concentration is 1.2M or 1.2N
The normality of commercial grade hydrochloric acid (HCl) can vary depending on the concentration specified by the manufacturer. Hydrochloric acid is commonly available in different concentrations, such as 37% or concentrated hydrochloric acid. To determine the normality, it is essential to know the molarity (moles of solute per liter of solution) and the number of equivalents of the acid. Normality (N) is related to molarity (M) by the equation: � = � × � N=n×M where: � N is the normality, � n is the number of equivalents, � M is the molarity. For hydrochloric acid (HCl), which is a monoprotic acid (donates one proton), the number of equivalents ( � n) is equal to 1. Therefore, if you know the molarity of the commercial grade hydrochloric acid, you can determine its normality using the equation mentioned above. It's important to check the product label or contact the manufacturer for the specific concentration of the hydrochloric acid you are using.