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T 22.5°c p. 0450 atm Putting a lot of things together: the carbon tetrachloride problem CS:(g) + 3 Cl:(g) → CCl(g) + S:Cl2(g) Carbon tetrachloride, CCl(8), can be synthesized according to the reaction represented above. A chemist runs the reaction at a constant temperature of 135°C in a rigid 23.0 L container. (a) Draw a particle drawing of the reactants together in the container. Pay attention to ratios. Use this key: CS:(g) (b) Chlorine gas, Cla(g), is initially present in the container at a pressure of 0.45 atm. How many moles of Cla(g) are in the container? (c) How many grams of carbon disulfide, CSz(g), are needed to react completely with the Cl2(g)? (e) What is the density of the chlorine gas, Cl2(g), at the reaction conditions?

T 22.5°c p. 0450 atm Putting a lot of things together: the carbon tetrachloride problem CS:(g) + 3 Cl:(g) → CCl(g) + S:Cl2(g) Carbon tetrachloride, CCl(8), can be synthesized according to the reaction represented above. A chemist runs the reaction at a constant temperature of 135°C in a rigid 23.0 L container. (a) Draw a particle drawing of the reactants together in the container. Pay attention to ratios. Use this key: CS:(g) (b) Chlorine gas, Cla(g), is initially present in the container at a pressure of 0.45 atm. How many moles of Cla(g) are in the container? (c) How many grams of carbon disulfide, CSz(g), are needed to react completely with the Cl2(g)? (e) What is the density of the chlorine gas, Cl2(g), at the reaction conditions?

Chemistry for Engineering Students
Chemistry for Engineering Students
4th Edition
ISBN:9781337398909
Author:Lawrence S. Brown, Tom Holme
Publisher:Lawrence S. Brown, Tom Holme
Chapter10: Entropy And The Second Law Of Thermodynamics
Section: Chapter Questions
Problem 10.101PAE: 10.101 Fluorine reacts with liquid water to form gaseous hydrogen fluoride and oxygen. (a) Write a...
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See attached worksheet.  Temperature = 22.5 degrees C and Pressure = 0.950 atm.

T 22.5°c p. 0450 atm Putting a lot of things together: the carbon tetrachloride problem CS:(g) + 3 Cl:(g) → CCl(g) + S:Cl2(g) Carbon tetrachloride, CCl(8), can be synthesized according to the reaction represented above. A chemist runs the reaction at a constant temperature of 135°C in a rigid 23.0 L container. (a) Draw a particle drawing of the reactants together in the container. Pay attention to ratios. Use this key: CS:(g) (b) Chlorine gas, Cla(g), is initially present in the container at a pressure of 0.45 atm. How many moles of Cla(g) are in the container? (c) How many grams of carbon disulfide, CSz(g), are needed to react completely with the Cl2(g)? (e) What is the density of the chlorine gas, Cl2(g), at the reaction conditions?
Transcribed Image Text:T 22.5°c p. 0450 atm Putting a lot of things together: the carbon tetrachloride problem CS:(g) + 3 Cl:(g) → CCl(g) + S:Cl2(g) Carbon tetrachloride, CCl(8), can be synthesized according to the reaction represented above. A chemist runs the reaction at a constant temperature of 135°C in a rigid 23.0 L container. (a) Draw a particle drawing of the reactants together in the container. Pay attention to ratios. Use this key: CS:(g) (b) Chlorine gas, Cla(g), is initially present in the container at a pressure of 0.45 atm. How many moles of Cla(g) are in the container? (c) How many grams of carbon disulfide, CSz(g), are needed to react completely with the Cl2(g)? (e) What is the density of the chlorine gas, Cl2(g), at the reaction conditions?
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Since you have posted a question with multiple sub-parts, we will solve first three sub-parts for you. To get remaining sub-parts solved please repost the complete question and mention the sub-parts to be solve.

CCl4 is an ideal tetrahedral molecule with bond angle 109.5°. Generally, it is a gas with no color and is of non-flammable nature. Since, it has a zero net dipole moment, so is a non-polar solvent, hence, not soluble in water.

Given:

Temperature, T = 22.5°C = 295.65 K

Pressure, P = 0.950 atm

Volume, V = 23.00 L

 

 

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