Lecture	Date	Day	Unit	Lecture Topic	Handout	Due
1	Feb 5	W	1. Intro	Intro
2	7	F		Concept of thermal strain	PS0
3	10	M		Thermal stresses in 1-D structure
4	12	W		Buckling of 1-D structure
5	14	F	2. Heat	Intro- heat flux, conservation of energy	PS1	PS0
V	17	M	Transfer	VACATION
6	18	T		Thermal resistance (1-D problems)
7	19	W		2-3 D Conduction, steady state
8	21	F		Transient conduction	PS2	PS1
9	24	M		Convection
10	26	W		Radiation
11	28	F	3. Thermo-	3-D equations, strain energy	QUIZ 1	PS2
12	March 3	M	Elasticity	2 D solutions I
13	5	W		2 D solutions II
14	7	F		1 D solutions	PS3	QUIZ 1
15	10	M		Plates
16	12	W		Transient solutions
17	14	F		Coupled and dynamic solutions	PS4	PS3
18	17	M	4. Thermal	Temperature dependent properties
19	19	W	Materials	Elastic effects of temperature dependence
20	21	F		Plasticity	PS5	PS4
V	24	M		VACATION
V	26	W		VACATION
V	28	F		VACATION
21	31	M		Viscoelasticity and Creep I
22	April 2	W		Viscoelasticity and Creep II
23	4	F		Viscoelasticity and Creep III	QUIZ 2	PS5
24	7	M	5. Applied	Multi-material (composites) problems
25	9	W	Thermo-	Composites II
26	11	F	Elasticity	Composites III	PS6	QUIZ 2
27	14	M		Joints I
28	16	W		Joints II
29	18	F		Space Thermal Problems I	PS7	PS6
V	21	M		VACATION
30	23	W		Space Thermal Problems II
31	25	F		Space Thermal Problems III	PS8	PS7
32	28	M		Engines
33	30	W		Engines II
34	May 2	F		Ablators I	PS9	PS8
35	5	M		Ablators II
36	7	W		Ablators III
37	9	F		Aging Material I	QUIZ 3	PS9
38	12	M		Aging Material II
39	14	W		Aging Material III		QUIZ 3