Requested Demos for Wednesday, Apr9

Last read

Mon Dec 1 16:15

	Painter 2.48	Painter 4.42
8 am	kleinman 303k : swinney 3A60.10 Driven Mechanical Resonance: Tacoma Narrow 3A60.30 Driven Mechanical Resonance: Barton's Pendula 3A60.50 Driven Mechanical Resonance: Resonance Reeds 3A60.55 Driven Mechanical Resonance: Torsion Pendulum (Leybold) 3A70.25 Coupled Oscillations: Spring Coupled Pendula 3A70.27 Coupled Oscillations: Spring Coupled Physicsal Pendula 3A70.10 Coupled Oscillations: Wilberforce Pendulum	sai 309l :
9 am	swinney 302k : turner 3A10.13 Pendula: Adjustable Length Pendula 1R10.10 Hooke's Law: Stretching a Spring 3A10.10 Pendula: Simple Pendulum 3A10.13 Pendula: Adjustable Length Pendula 3A10.30 Pendula: Torsion Pendulum 3A20.10 Springs: Mass on a Spring	antoniewicz 315 :
10 am	swinney 302k : turner 1R10.10 Hooke's Law: Stretching a Spring 3A10.10 Pendula: Simple Pendulum 3A10.13 Pendula: Adjustable Length Pendula 3A10.30 Pendula: Torsion Pendulum 3A20.10 Springs: Mass on a Spring	markert 315 :
11 am	bohm 302k :	turner 303l : klein 5G20.30 Magnet Domains and Magnetization: Magnetic Domain Model 5G50.50 Temperature and Magnetism: Meissner Effect
12 pm	chiu 303k :	turner 303l : chiu 6A10.10 Reflection from Flat Surfaces: Blackboard Optics - Flat Mirror 6A20.10 Reflection from Curved Surfaces: Blackboard Optics - Curved/Convex Mirrors 6A44.40 Total Internal Reflection: Light Pipe/ Laser and Fiber Optics 6A60.10 Thin Lenses: Blackboard Optics - Thin Lenses
1 pm	hoffmann 303k : gentle 3A10.10 Pendula: Simple Pendulum 3A10.13 Pendula: Adjustable Length Pendula 3A20.10 Springs: Mass on a Spring	sudarshan 303l :
2 pm	coker 341 :	berk 303l :
3 pm	demkov 301 : fischler 2B20.40 Static Pressure: Pascal's Vases 2B30.15 Air Pressure: Crush a Soda Can 2B30.30 Atmospheric Pressure: Magdeberg Plates 2B30.50 Atmospheric Pressure: Lift A Stool	shubeita 317 : florin 1R20.15 Tensile and Compressive Stress: Young's Modulus 1R30.20 Shear Stress: Shear Block 3A10.13 Pendula: Adjustable Length Pendula 3A10.30 Pendula: Torsion Pendulum
4 pm	demo office :	unknown unknown :
5 pm	:	:
6 pm	:	:
7 pm	:	:
8 pm	:	:
9 pm	:	:

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