- Introduction and review:
- Date assigned: October 2 Wednesday.
- Date due: October 3 Thursday.
- Problems from Section 1.1 (pages 11–13):
- No additional work needed: 7, 8;
- Show at least one intermediate step: 13;
- No additional work needed: 23, 25, 26;
- Show a formula for
*x*as a function of*h*as an intermediate step: 71.

- Problems from Section 1.2 (pages 18–21):
- Show at least one intermediate step: 5;
- No additional work needed: 23, 24.

- Extra credit (essay): Explain your background in mathematics and what you are going to use this course for.
- Some
**answers**: DjVu format, PDF format.

- Continuity:
- Date assigned: October 4 Friday.
- Date due: October 7 Monday.
*Advice:*Refer to the lecture notes on continuity for definitions and basic principles, but also look at the examples in the textbook.- Problems from Section 2.5 (pages 95–97):
*Note:*Since we define continuity before limits, do not use limits in any of your answers. You only need to know how to recognize continuity from an unbroken graph or from an analytic formula.- No additional work needed: 1–4, 5.d, 6.d, 7.b, 8, 9, 10;
- Show what equations or inequalities you solve (unless the function is continuous everywhere and there is nothing to solve): 13, 15, 19, 21, 25, 27;
- Show the simplified form of
*g*: 29, 39; - Show what equation you solve for
*a*: 43.

- Some
**answers**: DjVu format, PDF format.

- Epsilontics:
- Date assigned: October 8 Tuesday.
- Date due: October 9 Wednesday.
*Advice:*Refer to the lecture notes on continuity for definitions and basic principles, but also look at the examples in the textbook.- Problem from Section 2.5 (pages 95–97): Show why the Intermediate Value Theorem applies, but skip the part that requires a graphing calculator: 77.
- Problems from Section 2.3 (pages 76–79):
*Note:*In all of these problems, we always have*L*=*f*(*c*). So although the book intends these problems to be about limits, they are all really about continuity, specifically that*f*is continuous at*c*.- No additional work needed: 7–14;
- Show what equation or inequality you solve
to find the interval or to find
*δ*, or show a graph similar to the book's graphs for the previous problems: 15, 17, 23, 27.

*Extra credit:*Use the epsilontic definition to show why

is continuous in{ *x*sin (1/*x*)for *x*≠ 00 for *x*= 0*x*at*x*= 0. (Hint: For every real number*t*, −1 ≤ sin*t*≤ 1.)

- Limits:
- Date assigned: October 10 Thursday.
- Date due: October 14 Monday.
- Problems from Section 2.2 (pages 67–70):
- No additional work needed: 1–4, 9, 10;
- Show at least what numerical calculations you make: 15, 19, 25, 29, 35, 37, 43, 53, 57;
- No additional work needed (but be sure to do all that the books asks!): 65.a.

- Problems from Section 2.4 (pages 84–86):
- No additional work needed: 1–6;
- Show at least what numerical calculations you make: 11, 17, 23.

- Problems from Section 2.6 (pages 108–110):
- No additional work needed: 1, 2;
- Show at least what numerical caclulation you make involving only finite numbers: 7, 9, 11, 15, 21, 25, 27, 29, 35;
- Show at least one intermediate step addressing the sign of the result: 41, 45, 49, 53, 57.

- Derivatives from limits:
- Date assigned: October 15 Tuesday.
- Date due: October 16 Wednesday.
- Problems from Section 2.1 (pages 57–59): Show what numerical calculations you make: 1, 3, 5.
- Problems from Section 3.1 (pages 119&120):
- No additional work needed: 1, 2;
- Show what limits you evaluate, as well as their results: 5, 11, 19, 23, 31, 33, 34.

- Problems from Section 3.2 (pages 125–129):
- Show what limits you evaluate, as well as their results: 1, 3, 7, 9;
- No additional work needed: 27–30, 31, 35;
- Show what limits you evaluate, as well as their results: 37, 41;
- No additional work needed: 45–48.

- Simple derivatives:
- Date assigned: October 18 Friday.
- Date due: October 21 Monday.
- Problems from Section 3.3 (pages 137–139): Do the first derivatives only, showing at least one intermediate step for each: 1, 3, 7, 9.
- Problems from Section 3.6 (pages 161–164): Show at least one intermediate step for each derivative: 1, 23.

- Calculating derivatives:
- Date assigned: October 21 Monday.
- Date due: October 23 Wednesday.
- Problems from Section 3.3 (pages 137–139): Show at least one intermediate step for each derivative: 11, 15, 17, 21, 25, 41, 49.
- Problems from Section 3.11 (pages 203–205):
Show at least one intermediate step for each
that is
*not*simply d*y*/d*x*(in fact, you never need to find d*y*/d*x*at all): 21, 24. - Problems from Section 3.6 (pages 161–164): Show at least one intermediate step for each derivative: 33, 83, 87.
- Problems from Section 3.7 (pages 168&169): For each derivative, show an equation after differentiating but before solving: 1, 3, 7, 21.

- Derivatives of transcendental functions:
- Date assigned: October 24 Thursday.
- Date due: October 28 Monday.
- Problems from Section 1.5 (pages 38&39): Show at least one intermediate step for each: 11, 15, 19.
- Problems from Section 3.3 (pages 137–139): Show at least one intermediate step for each derivative: 5, 29, 31, 35, 51.
- Problems from Section 1.3 (pages 27–29):
- No additional work needed: 6;
- Show at least one intermediate step: 9, 11.

- Problems from Section 1.6 (pages 49–51): No additional work needed: 43, 45, 65, 67.
- Problems from Section 3.5 (pages 153–156): Show at least one intermediate step for each derivative: 1–15 odd, 19, 23, 31, 33, 35.
- Problems from Section 3.6 (pages 161–164): Show at least one intermediate step for each derivative: 3, 17, 27, 29, 35, 39, 43, 47, 65, 73, 77, 86, 89.
- Problems from Section 3.7 (pages 168&169): For each derivative, show an equation after differentiating but before solving: 11, 27, 29.
- Problems from Section 3.8 (pages 178&179): Show at least one intermediate step for each derivative: 13, 21, 27, 39, 47, 51, 57, 63, 65, 75, 89, 93.
- Problems from Section 3.9 (pages 185&186): Show at least one intermediate step for each derivative: 1, 7, 9, 11, 13–19 odd, 21, 23, 25, 31, 35, 37, 39.
- Problem from Section 3.11 (pages 203–205):
Show at least one intermediate step for each
that is
*not*simply d*y*/d*x*(in fact, you never need to find d*y*/d*x*at all): 25, 33, 35, 38.

- Basic applications of derivatives:
- Date assigned: October 29 Tuesday.
- Date due: October 31 Thursday.
- Problems from Section 3.4 (pages 146–149):
- Show at least one intermediate step for each result: 1–7 odd, 9, 13;
- Show what numerical calculation you make for the second half of part g: 17;
- No additional work needed: 18, 21;
- Show at least what numerical calculations you make: 23, 25.

- Problem from Section 3.5 (pages 153–156): Show at least what numerical calculations you make: 61.
- Problems from Section 3.6 (pages 161–164): Show at least one intermediate step for each result: 97, 98.

- Related rates:
- Date assigned: October 31 Thursday.
- Date due: November 4 Monday.
- Problems from Section 3.10 (pages 191–195): As intermediate steps, show at least every equation that you differentiate (unless it is given in the problem statement) and the resulting equation immediately after differentiating (regardless of what is given in the problem statement): 1, 2, 3, 6, 12, 13, 15, 23, 24, 27, 29, 31, 38, 41.

- Linear approximation:
- Date assigned: November 5 Tuesday.
- Date due: November 7 Thursday.
- Problems from Section 3.11 (pages 203–205):
- Show
*f*(*a*) and*f*′(*a*) (as well as your final answer): 1–7; - Show the chosen integer, the value of the function at that integer, and the value of its derivative at that integer (as well as your final answer): 10, 11, 13, 14;
- Show
*f*(0) and*f*′(0): 15; - Show at least one intermediate step for each part except part a: 16;
- Show at least a relevant approximate equation for each result: 51, 52, 53, 57.

- Show

- Mean-value theorems:
- Date assigned: November 7 Thursday.
- Date due: November 8 Friday.
- Problems from Section 4.2 (pages 228–230):
- Show what equation you solve to find
*c*: 1, 5; - No additional work needed (but give reasons as directed): 9, 11, 13, 15;
- Show the zero (root), and indicate what calculation (using Rolle's Theorem!) shows that there is not another one: 21, 25;
*Extra credit*(give reasons!): 54.

- Show what equation you solve to find

- L'Hôpital's Rule:
- Date assigned: November 11 Monday.
- Date due: November 12 Tuesday.
- Problems from Section 4.5 (pages 253&254): Use L'Hôpital's Rule instead of algebraic manipulation; each time it is used (which may be never or more than once in a problem), show at least the expressions immediately before and after its application: 1, 3, 5, 11, 13, 15, 21, 27, 37, 43, 51, 55, 59, 60.

- Local extrema:
- Date assigned: November 13 Wednesday.
- Date due: November 15 Friday.
- Problems from Section 4.1 (pages 219–222): No additional work needed: 1–14, 15, 17, 20.
- Problems from Section 4.3 (pages 233–235):
*Note*: Do*not*use any second derivatives in any of these problems.- Show what equations or inequalities you solve and what numerical calculations you make: 1, 3, 5, 7, 13;
- No additional work needed: 15–18;
- Show what equations or inequalities you solve and what numerical calculations you make: 19, 23, 29, 33, 43;
- No additional work needed: 67.

- Graphing, Newton's Method:
- Date assigned: November 18 Monday.
- Date due: November 20 Wednesday.
- Problems from Section 1.4 (page 33): Optional, no additional work needed: 1–4.
- Problems from Section 4.4 (pages 243–246):
- Show what equations or inequalities you solve or what limits you take: 1–7 odd, 11, 19, 23, 27, 43, 53;
- No additional work needed: 81, 83;
- No additional work needed: 103, 105, 109.

- Problems from Section 4.7 (pages 269–271):
*Extra credit*: For each iteration, show what numerical calculation you make to get the next result: 1, 5;*Extra credit*: Show what calculations you make: 9&10.

- Optimization:
- Date assigned: November 21 Thursday.
- Date due: November 25 Monday.
- Problems from Section 4.1 (pages 219–222): Show what equations you solve and what numerical calculations you make: 23, 27, 37, 39, 41.
- Problems from Section 4.6 (pages 260–266): Show what equations you use, both before and after differentiating: 1, 3.c, 7, 9, 11, 13, 15, 29, 31, 37, 39, 43.a.

- Summation notation, Riemann sums:
- Date assigned: November 26 Tuesday.
- Date due: December 2 Monday.
- Problems from Section 5.2 (pages 304&305):
- No additional work necessary (but be sure to do everything asked for): 1–6;
- No additional work necessary: 7, 9, 11–16;
- Show at least one intermediate step: 17, 19, 23, 29;
- Show what numerical calculations you make
(except perhaps for calculating values of
*x*and Δ*x*): 33, 35.

- Problems from Section 5.1 (pages 296–298):
Show what numerical calculations you make
(except perhaps for calculating values of Δ
*x*): 1–19 odd.

- Indefinite integrals:
- Date assigned: December 3 Tuesday.
- Date due: December 4 Wednesday.
- Problems from Section 4.8 (pages 277–281):
- No additional work needed: 1–24 (odd);
- Show at least one intermediate step for each: 27, 29, 35, 39, 41, 45, 49, 51, 55, 61, 65, 75, 77, 81, 83.

- Problems from Section 5.5 (pages 333–335): Show at least one intermediate step for each: 1–7 odd, 15, 17, 21, 25, 27, 31, 35, 39, 47, 55, 57, 61.

- Calculating definite integrals:
- Date assigned: December 5 Thursday.
- Date due: December 6 Friday.
- Problems from Section 5.3 (pages 313–317): No additional work needed: 9–14.
- Problems from Section 5.4 (pages 325–328):
- Show at least one intermediate step involving the result of an indefinite integral: 1–15 odd, 23, 29;
- Show at least one intermediate step each way: 39, 43;
- Show at least one intermediate step: 47, 51;
- Show what definite integrals you evaluate: 57, 59, 61.

- Problems from Section 5.6 (pages 341–344):
- Show the integrals you have after substitution: 1–9 odd, 13, 19, 25, 31, 37, 41, 45;
- Show what definite integrals you evaluate: 47, 51, 55, 57, 59, 67, 69, 75, 81, 87, 99.

- Applications of integration:
- Date assigned: December 10 Tuesday.
- Date due: December 16 Monday.
- Problems from Section 4.2 (pages 228–230): Show at least one intermediate step: 39.
- Problems from Section 4.8 (pages 277–281):
- Show at least one intermediate step;
note that the book is conflating the function
*y*with its output*y*(*x*) at the input*x*: 95, 97, 105; - Show what numerical calculations you make,
*or*show what direct integral you evalute: 119.A.

- Show at least one intermediate step;
note that the book is conflating the function
- Problems from Section 5.5 (pages 333–335):
- Show at least one intermediate step;
note that the book is conflating the function
*s*with its output*s*(*t*) at the input*t*: 71, 73; - Show at least one intermediate step: 77.

- Show at least one intermediate step;
note that the book is conflating the function
- Problems from Section 6.3 (pages 376&377):
- Show what definite integral you evaluate: 1, 3, 7, 9, 13;
*Extra credit*(hint: implicit differentiation): Show at least two intermediate steps: 30.

We didn't get to the following material (applications of integration to volumes), but you can look at it if you want.

- Problems from Section 6.1 (pages 361–364): 1, 5, 7, 13, 15, 17, 21, 23, 25, 35, 45, 51;
- Problems from Section 6.2 (pages 369–371): 1, 3, 5, 9, 15, 21, 25, 27, 31, 39.

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