Please answer for the following questions The following figure is the Lead-Tin Phase Diagram of 40wt% Sn-60wt% Pb alloy. 1. For a 40wt%Sn-60wt%Pb alloy at 150°C, what phase is present? 2. What is the composition of the phase at 150°C? 3. Calculate the relative amount of each phase present in terms of a. Mass fraction b. Volume fraction At 150°C temperatures take the densities of Pb and Sn to be 11.23 and 7.24 g/cm³, respectively.
Please answer for the following questions The following figure is the Lead-Tin Phase Diagram of 40wt% Sn-60wt% Pb alloy. 1. For a 40wt%Sn-60wt%Pb alloy at 150°C, what phase is present? 2. What is the composition of the phase at 150°C? 3. Calculate the relative amount of each phase present in terms of a. Mass fraction b. Volume fraction At 150°C temperatures take the densities of Pb and Sn to be 11.23 and 7.24 g/cm³, respectively.
Introduction to Chemical Engineering Thermodynamics
8th Edition
ISBN:9781259696527
Author:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart
Publisher:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart
Chapter1: Introduction
Section: Chapter Questions
Problem 1.1P
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Please answer for the following questions
The following figure is the Lead-Tin Phase Diagram of 40wt% Sn-60wt% Pb alloy.
1. For a 40wt%Sn-60wt%Pb alloy at 150°C, what phase is present?
2. What is the composition of the phase at 150°C?
3. Calculate the relative amount of each phase present in terms of
a. Mass fraction
b. Volume fraction At 150°C temperatures take the densities of Pb and Sn to be 11.23 and 7.24 g/cm³, respectively.
Transcribed Image Text:Please answer for the following questions
The following figure is the Lead-Tin Phase Diagram of 40wt% Sn-60wt%Pb alloy,
1. For a 40wt%Sn-60wt% Pb alloy at 150°C, what phase is present?
2. What is the composition of the phase at 150°C?
3. Calculate the relative amount of each phase present in terms of
a. Mass fraction
b. Volume fraction
At 150°C temperatures take the densities of Pb and Sn to be 11.23 and 7.24 g/cm³, respectively.
Temperature (°C)
300
200
100
0
0
(Pb)
20
a+l
Liquid
60
C₁
Composition (wt% Sn)
80
B+L
B
-
600
500
400
300
200
100
100
(Sn)
Temperature (°F)
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