Chapter 3 - Thermodynamics Flashcards
Temperature vs Heat
Temperature: average kinetic energy of particles that make up the substance
Heat: transfer of thermal E from hotter object to colder
What is thermal equilibrium?
No net heat flowing between two objects in thermal contact
*temps are equal
Thermal expansion equation
∆L = aL∆T
∆L = change in length L = original length a. = coefficient of linear expansino
Volumetric expansion
∆V = ßV∆T
First Law of thermodynamics as an equation for internal energy
∆U = Q - w
Change in total internal energy of a system
IS EQUAL TO:
Amount of energy transferred in form of heat TO THE SYSTEM
MINUS:
The amount of energy transferred FROM THE SYSTEM in the form of work
Q= energy transfered as heat (into system) W = work done (by system)
What is the SI unit for heat?
joule (J)
1Cal = 10^3 cal = 4184 J = 3.97 BTU
The means of heat transfer
Conduction: directed through molecular collisions
Convection: physical motion of a fluid over a material (liquids and gases)
Radiation: electromagnetic waves
List terms for phase changes
Fusion/melting: solid to liquid
Solidification/freezing: liquid to solid
Evaporation/vaporization: liquid to gas
Condensation: gas to liquid
Sublimation: solid to gas
Deposition: gas to solid
Equation used when no temp change during phase change
q = mL
q = amount of heat gained or lost from material
m = mass of substance
L = heat of transformation (latent heat)
What does the 1st law of thermodynamics reduce to when the process is :
- Isothermal
- Adiabatic
- Isobaric
- Isovolumetric (isochoric)
- ∆U = 0:
Q = W - Adiabatic: Q = 0 (no heat exchange)
∆U = -W
- Isobaric …no special form
- Isochoric: W=0
∆U = Q
What are the units of entropy?
J/ mol*K
If a gas expands is it doing work or is work done on it
Expansion (work being done by the gas )…decreases internal energy
COmpression: work done ON the gas
(Increases internal energy)
