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Science Chemistry OWLV2 FOR MOORE/STANITSKI'S CHEMISTRY:

Using osmotic pressure, the empirical formula for dioxane is not same as its molecular formula has to be shown. Concept introduction: Osmosis is the process by which net movement of solvent into an expense of higher solute concentration via semi permeable membrane. Osmotic pressure is the pressure that is needed to stop osmosis. Osmotic pressure of the solution is directly proportional to the concentration of the solution. We can calculate osmotic pressure by using this formula is given by, Osmotic pressure: (π) = iMRT . Where, ‘i’-Van’t Hoff factor M – Molarity of the solution (mol/L) R- Ideal gas constant (0.08206 L atm mol -1 K -1 ) T-Temperature in Kelvin Moles: One mole is equivalent to the mass of the substance consists same number of units equal to the atoms present in 12 g of 12 C . From given mass of substance moles could be calculated by using the following formula, Moles of substance = Given mass of substance Molecular mass Mass: It is the quantitative measure of a substance. The amount of matter present in substance is expressed as mass. The S . I . unit of mass is k g .

Using osmotic pressure, the empirical formula for dioxane is not same as its molecular formula has to be shown. Concept introduction: Osmosis is the process by which net movement of solvent into an expense of higher solute concentration via semi permeable membrane. Osmotic pressure is the pressure that is needed to stop osmosis. Osmotic pressure of the solution is directly proportional to the concentration of the solution. We can calculate osmotic pressure by using this formula is given by, Osmotic pressure: (π) = iMRT . Where, ‘i’-Van’t Hoff factor M – Molarity of the solution (mol/L) R- Ideal gas constant (0.08206 L atm mol -1 K -1 ) T-Temperature in Kelvin Moles: One mole is equivalent to the mass of the substance consists same number of units equal to the atoms present in 12 g of 12 C . From given mass of substance moles could be calculated by using the following formula, Moles of substance = Given mass of substance Molecular mass Mass: It is the quantitative measure of a substance. The amount of matter present in substance is expressed as mass. The S . I . unit of mass is k g .

Solution Summary: The author explains that the empirical formula for dioxane is not the same as its molecular formula. Osmotic pressure is the pressure that is needed to stop osmosis.

OWLV2 FOR MOORE/STANITSKI'S CHEMISTRY:

OWLV2 FOR MOORE/STANITSKI'S CHEMISTRY:

5th Edition

ISBN: 9781285460369

Author: STANITSKI

Publisher: Cengage Learning

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Solutions can be considered as homogeneous mixtures which contain two or more than two chemical substances. The chemical substance which is the greater part is defined as solvent. And the chemical substance that is dissolved in a solvent is referred to a…

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Chapter 13, Problem 129QRT

Interpretation Introduction

Interpretation:

Using osmotic pressure, the empirical formula for dioxane is not same as its molecular formula has to be shown.

Concept introduction:

Osmosis is the process by which net movement of solvent into an expense of higher solute concentration via semi permeable membrane.

Osmotic pressure is the pressure that is needed to stop osmosis. Osmotic pressure of the solution is directly proportional to the concentration of the solution. We can calculate osmotic pressure by using this formula is given by,

Osmotic pressure: (π) = iMRT.

Where,

‘i’-Van’t Hoff factor

M – Molarity of the solution (mol/L)

R- Ideal gas constant (0.08206L atm mol-1K-1)

T-Temperature in Kelvin

Moles: One mole is equivalent to the mass of the substance consists same number of units equal to the atoms present in 12 g of 12C.

From given mass of substance moles could be calculated by using the following formula,

Moles of substance = Given mass of substanceMolecular mass

Mass: It is the quantitative measure of a substance. The amount of matter present in substance is expressed as mass. The S.I. unit of mass is kg.

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Chapter 13, Problem 128QRT

Chapter 13, Problem 130QRT

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Chapter 13 Solutions

OWLV2 FOR MOORE/STANITSKI'S CHEMISTRY:

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Solutions: Crash Course Chemistry #27; Author: Crash Course;https://www.youtube.com/watch?v=9h2f1Bjr0p4;License: Standard YouTube License, CC-BY