Introduction to Pressure Vessels
In your Mechanics of Materials class, you were taught about thin-walled pressure vessels. In Machine
Design we will build on those results by presenting the equations for thick-walled cylindrical pressure
vessels.
The equa
Ware Lab Introduction
Ware Lab Introduction
Things You Need to Know to
Work in the Ware Lab
1 of 19
Ware Lab Introduction
Faculty and Staff
Dewey Spangler
Doug Harold
Manager
Supervisor
103 Ware Lab
101A Ware Lab
Email: spangler@vt.edu
Email: harold9000@
Ware Lab Machine Shop
Ware Lab Machine Shop
Things You Need to Know to
Work in the Klages Machine Shop
1 of 22
Ware Lab Machine Shop
Faculty and Staff
Dewey Spangler
Doug Harold
Manager
Supervisor
103 Ware Lab
101A Ware Lab
Email: spangler@vt.edu
Email:
HW #9 Due April 26, 2010 A. For the circuit below, assume V1 = 6V and V2 = 5.5V. Determine the diode current and voltage using: 1. the Ideal Diode Equation if the reverse saturation current Is is equal to 5pA and the ideality factor, n = 1. 2. the piecewi
Homework #4 Due Monday, Feb. 15, 2010
1. Solve for I, expressed in phasor notation, and state whether I lags or lead the voltage source using Nodal Analysis.
2. Solve for I and V, expressed in phasor notation, and state whether I and V lags or lead the 20
Homework #3
Due Monday, Feb. 8, 2010
1. Find the equivalent impedance between points a and b, expressed as a phasor. Assume that the angular frequency of the source connected to the impedances is 30 rad/s.
2. Find the equivalent impedance between points a
HW #2 1. An incandescent bulb with a tungsten filament operates at temperature ranging between 1800K-3200K. When operated at 1800K, the color of the bulb is reddish. Bright yellowish white light is emitted from the bulb when operated at 3200K. The resisti
College of
Engineering
Joseph F. Ware, Jr. Advanced Engineering Lab
320 Stanger Street
Military Building #203 (mail code 0297)
Blacksburg, Virginia 24061
540/231-5837 Fax: 540/231-1771
E-mail: spangler@vt.edu
http:/www.eng.vt.edu/warelab/
Virginia Tech -