EE 40, Midterm #1, Summer 1999
EE 40, Summer 1999 Midterm #1 Professor Dennis M. Sylvester
Problem #1
Node Voltages Va through Vd are labeled on the above circuit diagram. Note the location of ground. a. Circle all supernodes b. Write Vx and Iy in terms o
University of California at Berkeley College of Engineering Dept. of Electrical Engineering and Computer Sciences
EECS 40 Midterm II
Spring 1999 Prof. Roger T. Howe April 14, 1999
Name: _ last, first
Student ID _
Guidelines 1. Closed book and notes; one 8
University of California at Berkeley College of Engineering Dept. of Electrical Engineering and Computer Sciences
EECS 40 Midterm I
Spring 1999 Prof. Roger T. Howe February 24, 1999
Name: _ Last, First
Student ID _
Guidelines 1. Closed book and notes; one
EE 40, Midterm 2, Spring 1998
EE 40, Spring 1998 Midterm 2 Professor S. Schwarz, Professor R. M. White
Problem #1 (25 Points) The phasor representing the sinusoid v(t) is v = (1+2j)/1-3j). The angular frequency omega is 100 radians/sec. [8 pts.] a) Find t
EE40, Midterm #2, Spring 1996
EE40 Spring 1998 Midterm #1 S. Schwarz, R. M. White
Problem #1
The nonlinear circuit element NL in Fig. (a) has the I-V characteristic shown in (b). (Sign conventions for V, I are as shown.) Find Vx with respect to ground. Pr
EE40, Midterm #2, Spring 1996
EE40 Spring 1996 Midterm #2 A.M. Flynn, R.T. Howe, R.M. White
Problem #1 (a) What is the phasor current corresponding to the actual current i(t) = 2 cos(10 4t - 600) mA (write answer in both polar and rectangular forms) (b) W
EE40, Midterm #1, Spring 1994
EE40, Spring 1994 Midterm #1
Problem #1 Problem 1 (20 points) Using the Ideal Op-Amp Technique, analyze the following circuit to find Va and Vb (in terms of Vin). (a) (10 pts.)
(b) (10 pts.)
Problem #2
file:/C|/Documents%20an
Spring 2012
EE 4 0
Midterm 2
NAME:
SSID:
Instructions
Read all of the instructions and all of the questions before beginning the exam.
There are 4 problems in this exam. The total score is 100 points. Points are given
next to each problem to help you allo
Problem 1
Start by transforming the voltage sources into current sources
Notes:
The above solution is the "intended" solution, but this circuit is pretty simple so any of the circuit solving techniques you've learned could have been used. Doing the sourc
UC Berkeley, EECS Department
EECS 40
B. Boser
MT2: RLC and Digital Circuits
UID:
Name:
SID:
UID:
Problem 1
Problem 2
Problem 3
Problem 4
Score
Points of 25
Points of 25
Points of 25
Points of 25
%
Closed book, closed notes
One pocket calculator permitte
UC Berkeley, EECS Department
EECS 40 Lab
MT1: Resistive Circuits and OpAmps
B. Boser
UID:
Name:
SID:
UID:
Problem 1
Problem 2
Problem 3
Problem 4
Score
Points of 25
Points of 25
Points of 25
Points of 25
%
Closed book, closed notes
One pocket calculator
EE 40: Introduction to Microelectronic Circuits Spring 2008: Midterm 1
Venkat Anantharam February 22, 2008
Total Time Allotted : 50 min Total Points: 50 1. This is a closed book exam. However, you are allowed to bring one page (8.5 x 11) notes, with writi
EE 40: Introduction to Microelectronic Circuits Spring 2008: Midterm 1
Venkat Anantharam February 22, 2008
Total Time Allotted : 50 min Total Points: 50 1. This is a closed book exam. However, you are allowed to bring one page (8.5 x 11) notes, with writi
UNIVERSITY OF CALIFORNIA AT BERKELEY
EECS Department
EECS 40, Spring 2006
Prof. Chang-Hasnain
Midterm #2
April 6, 2006
Total Time Allotted: 80 minutes
Total Points: 100
1. This is a closed book exam. However, you are allowed to bring two pages (8.5 x
11),
EE40 Midterm 2
Spring 2006
Professor Chang-Hasnain
Total Time Allotted: 80 minutes
Total Points: 100
1. (20 pts) Match the transfer function to the Bode plot. Each transfer function matches to
exactly one Bode plot. Also there is no partial credit for thi
Midterm 1 Solution for EE40 Sp 2006
(Prepared by Josh Hug, jhug@eecs.berkeley.edu)
1. Resistive Circuits and Capacitors
a. This is most easily solved by using the current divider rule:
I7 =Is/8
b. If we treat the two resistances R in parallel as a R ohm r
UNIVERSITY OF CALIFORNIA AT BERKELEY
EECS Department
EECS 40, Spring 2005
Prof. Chang-Hasnain
Midterm #2
April 14, 2005
Total Time Allotted: 80 minutes
1. This is a closed book exam. However, you are allowed to bring one page
(8.5 x 11), double-sided note
1 EECS40
Midterm Exam # 1 March 2, 2004 Time Allowed: 90 minutes
Spring 2004
Name:_, _ Last First Student ID #:_, Signature:_ Discussion Section:_ This is a closed-book exam, except for use of one 8.5 x 11 inch sheet of your notes. Show all your work to r
Department of Electrical Engineering and Computer Sciences College of Engineering University of California, Berkeley SR Sanders EECS40 - Midterm #2 April 11, 2002 Name: _ Last, First Signature: _ SID# _ Spring 2002
TA:
David
Richard Frank
Guidelines 1.
Untitled Document
University of California at Berkeley College of Engineering Dept. of Electrical Engineering and Computer Sciences
EECS 40 Midterm II
Spring 2001 Prof. Roger T. Howe April 11, 2001
Name: _ Last, First
Student ID _
Guidelines 1. Closed boo
EECS 40 Midterm 1 - Spring 2001
EECS 40 Midterm 1 - Spring 2001 Professor Howe
1. Capacitor Charging/Discharging [17 points]
(a) [4 pts] What is the value of the current i (t = 0
+
) in Amperes? The switch moves up at t = 0 and down at t = 50 ps. (note th
UNIVERSITY OF CALIFORNIA, BERKELEY College of Engineering Department of Electrical Engineering and Computer Sciences EECS 40 Introduction to Microelectronic Devices MIDTERM EXAMINATION #2 April 6, 2000 Time allotted: 80 minutes Spring 2000 Prof. King
NAME
UNIVERSITY OF CALIFORNIA, BERKELEY College of Engineering Department of Electrical Engineering and Computer Sciences EECS 40 Introduction to Microelectronic Devices MIDTERM EXAMINATION #1 Time allotted: 80 minutes Spring 2000
NAME: _ _
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