MATH 200, SECTION 105, SeptemberDecember 2017 
Dec 4  Quiz 5 can be picked up from the MLC. 
Oct 13  Midterm Solution posted. 
Sept 29  Quiz 2 Solution posted. 
Sept 15  Solution of Quiz 1 was posted. 
Sept 10  Time and room of office hours were updated. 
Sept 4  WELCOME TO THE COURSE WEBPAGE ! 
Classes 
When: Tuesdays and Thursdays 9:30am  11:00am Where: Buchanan A103 
Instructor 
Orit Raz email: oritraz@math.ubc.ca 
Office hours 
Tuesdays 3:30pm  5:30pm in MATX 1102. 
Grade 
Please see Common Course Page for the details. 
QUIZ 1 (14/9/17): Solution.  
QUIZ 2 (28/9/17): Solution.  
QUIZ 3 (26/10/17): Solution.  The quiz will focus on the topics: Multivariable Chain Rule, Directional Derivatives, Tangent Planes, Tangent/Normal Lines. You will *not* be asked about local max/min values. 
QUIZ 4 (9/11/17): Solution.  The quiz will focus on the topics: Local and global extrema, Lagrange multipliers method, iterated and double integrals, integration in polar coordinates. 
QUIZ 5 (23/11/17): Solution.  The quiz will focus on the topics: Double integrals in polar coordinates (13.3), Volume and triple integration (13.6), Triple integration with cylindrical coordinates (Secondary textbook #2, 14.4, pp 541542) 
Time and Place:  Thursday October 12, 9:30am  11:00am, Buchanan A103 
MIDTERM SOLUTION.  
Material:  Everything taught in lectures up to lecture on Thursday Oct. 5,
excluding ‘Multivariable chain rule’ that was explained at the last part of the lecture. 
Relevant sections from primary textbook: 10.1 (Cartesian coordinates): excluding ‘Surfaces of revolution’ pages 556557. 10.2 (Intro to vectors) 10.3 (Dot product): excluding ‘Applications to work’ on pages 590591. 10.4 (Cross product) 10.5 (Lines) 10.6 (Planes) 12.1 (Functions of several variables) 12.3 (Partial derivatives) 12.4 (Differentiability and total differential): excluding definition of differentiability (Definitions 87, 89 Theorems 104,105,106) Additions to textbook: ’Linear approximation’ and ‘Tangent plane’. For this you can consult the book Multivariable Calculus by J. Stewart, Section 14.4 
