How Do You Solve Thermal Expansion Equations Under Time Pressure?

  • Thread starter Thread starter Jayhawk1
  • Start date Start date
  • Tags Tags
    Confused
Click For Summary
SUMMARY

The discussion centers on solving thermal expansion equations for a brass plug and an iron ring under time pressure. The coefficients of linear expansion are given as 10x10-6 °C-1 for brass and 12x10-6 °C-1 for iron. The initial diameters are 8.755 cm for the brass plug and 8.745 cm for the iron ring. To find the temperature at which both diameters are equal, users must set the equations for diameter expansion equal and solve for the temperature change.

PREREQUISITES
  • Understanding of linear expansion equations
  • Familiarity with coefficients of linear expansion
  • Basic algebra skills for solving equations
  • Knowledge of temperature conversion and units
NEXT STEPS
  • Practice solving thermal expansion problems using different materials
  • Learn about the applications of thermal expansion in engineering
  • Explore advanced topics in thermodynamics related to material properties
  • Investigate the effects of temperature on various materials beyond brass and iron
USEFUL FOR

Students in physics or engineering, particularly those dealing with thermal properties of materials, and anyone needing to solve practical problems involving thermal expansion.

Jayhawk1
Messages
44
Reaction score
0
https://www.physicsforums.com/showthread.php?p=543646#post543646

I asked this question earlier and I didn't get any significant help, atleast beyond what I already knew. I do not know how to calculate this, nor do my classmates who I have seen also posed this question to the forum. Please help! I know the concept, but I can not calculate it. I have worked on it for a few days now, and it is due in about an hour.
 
Physics news on Phys.org
You are given the coefficient of linear expansion of iron so you can calculate how much the linear dimensions of the ring have increased and so the volume at each temperature. From that you can calculate the inside diameter of the iron ring (which is now smaller!). You are given the coefficient of linear expansion of bronze so you can calcuate how much the linear dimension (in particular, the diameter) of the brass plug increases with each degree and so what the diameter is at any temperature. Now find the temperature at which those two diameters are the same.
 
Jayhawk1 said:
A brass plug is to be placed in a ring made of iron. At room temperature (20oC), the diameter of the plug is 8.755 cm and that of the inside of the ring is 8.745 cm. They must be brought to what common temperature (in Co) in order to fit? The coefficient of linear expansion for brass is 10x10-6(Co)-1 and that for iron is 12x10-6(Co)-1.

I don't know what to do with this... I know I have to subtract and divide some of these numbers, but I have no clue as to how to do it exactly. I need help please! Thank you.,

Diameter of brass plug as a function of the temperature change is

D_b = D_{b0}(1+10*10^{-6}/C^o*{\Delta}T)

Diameter of iron ring as a function of the temperature change is

D_i = D_{i0}(1+12*10^{-6}/C^o*{\Delta}T)

Set the two diameters equal and solve for the temperature change. Add the change to the starting temperature.
 
HallsofIvy said:
You are given the coefficient of linear expansion of iron so you can calculate how much the linear dimensions of the ring have increased and so the volume at each temperature. From that you can calculate the inside diameter of the iron ring (which is now smaller!). You are given the coefficient of linear expansion of bronze so you can calcuate how much the linear dimension (in particular, the diameter) of the brass plug increases with each degree and so what the diameter is at any temperature. Now find the temperature at which those two diameters are the same.


The diameter of the inside of the ring actually gets larger. If it were a disk, all the linear dimensions would increase. The diameter of the "missing" part of the disk that makes it a ring will expand in proportion to the outer diameter.
 
Thank you but...

Hahaha... I'm sorry, but now I'm just really confused. I tried making the two equations equal, but I got a very very small number. Can someone please clarify for me? I appreciate all your help so far.
 
Jayhawk1 said:
Hahaha... I'm sorry, but now I'm just really confused. I tried making the two equations equal, but I got a very very small number. Can someone please clarify for me? I appreciate all your help so far.

D_b = 8.755cm(1+10*10^{-6}/C^o*{\Delta}T)

D_i = 8.745cm(1+12*10^{-6}/C^o*{\Delta}T)

8.755cm(1+10*10^{-6}/C^o*{\Delta}T) = 8.745cm(1+12*10^{-6}/C^o*{\Delta}T)

8.755cm-8.745cm = 8.745cm(12*10^{-6}/C^o*{\Delta}T) - 8.755cm(10*10^{-6}/C^o*{\Delta}T)

(8.755cm-8.745cm)*10^6C^o = (8.745cm*12 - 8.755cm*10){\Delta}T

Can you finish this?
 

Similar threads

How do you Calculate Ampacity of a Conductor Geometry?
  • · Replies 64 ·
3
Replies
64
Views
6K
Is the Thermal/Mechanics Problem incoherent?
  • · Replies 8 ·
Replies
8
Views
2K
Solar Panels and Solar Radiation Flux Density Help - Very Confused
  • · Replies 35 ·
2
Replies
35
Views
6K
How Do You Solve Equations with Variables V, U, and T?
  • · Replies 10 ·
Replies
10
Views
2K
Where Should I Ask About Running a Thermal Conductivity Test for Soils?
  • · Replies 2 ·
Replies
2
Views
1K
How Do You Solve Adiabatic Expansion Problems in Thermodynamics?
  • · Replies 5 ·
Replies
5
Views
3K
Equilibrium and Pressure Distribution in a Spherical Body Under Gravity
  • · Replies 5 ·
Replies
5
Views
4K
How do I convert 1.2atm to N/m^2 when solving for gas work?
  • · Replies 8 ·
Replies
8
Views
3K
Positioning Device Based On Thermal Expansion
  • · Replies 2 ·
Replies
2
Views
3K
Archived Finding the thermal energy and Q for an isobaric process.
  • · Replies 1 ·
Replies
1
Views
4K