Addition of 1 .20 kg ethylene glycol would be sufficient or not to prevent the solution from freezing if the temperature drops to -25 o C has to be shown using calculation. Concept introduction Freezing point is the temperature at which liquid turns into solid. The Freezing point depression (ΔT f ) is indicated as ΔT f = K f m Where, ΔT f − Change in freezing point K f − Molal freezing point constant m − Molality of the solution From given mass of substance moles could be calculated by using the following formula, Moles of substance = Given mass of substance Molecular mass Molality: It is a measure of the concentration of a solute in a solution in terms of amount of substance in the amount of mass of solvent. m = mol kg Where, m is molality; mole is moles of solute and kg is mass of solvent.

Question

Want to see the full answer?

Answer 1

Question

Chapter 13.7, Problem 13.11PSP

Interpretation Introduction

Interpretation:

Addition of 1.20 kg ethylene glycol would be sufficient or not to prevent the solution from freezing if the temperature drops to -25oC has to be shown using calculation.

Concept introduction

Freezing point is the temperature at which liquid turns into solid.

The Freezing point depression(ΔTf) is indicated as ΔTf= Kfm

Where,

ΔTf− Change in freezing point

Kf− Molal freezing point constant

m− Molality of the solution

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

Moles of substance = Given mass of substanceMolecular mass

Molality: It is a measure of the concentration of a solute in a solution in terms of amount of substance in the amount of mass of solvent.

m = molkg

Where, m is molality; mole is moles of solute and kg is mass of solvent.

Expert Solution & Answer

Want to see the full answer?

Check out a sample textbook solution

See solution

Students have asked these similar questions

Photochemical smog is formed in part by the action of light on nitrogen dioxide. The wavelength of radiation absorbed by NO2 in this reaction is 197 nm.(a) Draw the Lewis structure of NO2 and sketch its π molecular orbitals.(b) When 1.56 mJ of energy is absorbed by 3.0 L of air at 20 °C and 0.91 atm, all the NO2 molecules in this sample dissociate by the reaction shown. Assume that each absorbed photon leads to the dissociation (into NO and O) of one NO2 molecule. What is the proportion, in parts per million, of NO2 molecules in this sample? Assume that the sample behaves ideally.

Correct each molecule in the drawing area below so that it has the skeletal ("line") structure it would have if it were dissolved in a 0.1 M aqueous solution of HCI. If there are no changes to be made, check the No changes box under the drawing area. No changes. HO Explanation Check NH, 2 W O :□ G ©2025 M unter Accessibility

An expression for the root mean square velocity, vrms, of a gas was derived. Using Maxwell’s velocity distribution, one can also calculate the mean velocity and the most probable velocity (mp) of a collection of molecules. The equations used for these two quantities are vmean=(8RT/πM)1/2 and vmp=(2RT/M)1/2 These values have a fixed relationship to each other.(a) Arrange these three quantities in order of increasing magnitude.(b) Show that the relative magnitudes are independent of the molar mass of the gas.(c) Use the smallest velocity as a reference for establishing the order of magnitude and determine the relationship between the larger and smaller values.