ࡱ> jli_ !/bjbj,E,E 4PN/N/!'NN!!!!!!!!!4!T!"YD"D"D"D"D"'''XXXXXXX$Z]X!'&'''X!!D"D"X')')')'v!D"!D"X')'X')')Rp9XD"p_0'R+UXX0"YUv ^K( ^l9X ^!9XT')'''XX')'''"Y'''' ^'''''''''N n : AP Calculus BC Syllabus 2016-2017 Mike Lanzarone Rm 226 lanzarone_michael@asdk12.org Course Description The only constant in the world is change. Calculus broadly defined is the study of how functions change and, as such, is the most applicable math to the world around us. In order to explore these changes, mathematics needed new tools: the limit, derivative, and integral. Students will build upon their foundational understanding of calculus. Topics of study include integration both definite and indefinite as well as improper integrals, differential equations, infinite series, parametric and polar equations, and vector-valued functions. Application of the concepts will be heavily emphasized in order to more closely match a situation in the real world. Since real world situations can arise in multiple ways, students will interact with the functions in multiple ways: Graphically graph of function is available Numerically solutions of the function are provided (think data collection) Analytically the equation of the function is known Written/Verbally information about the situation is in words Finally, students will be expected to justify and defend their conclusions using concrete evidence both in written and verbal formats. Grading Categories Assignments: 20% - Homework, in-class assignments, class participation Assessments: 80% - Quizzes, exit-slips, group tests, unit tests, finals Homework Homework is a way to practice the material explored and introduced in class. Without applying the material through practice theres very little chance of actually learning the material. Its expected that students complete their homework. During class I will walk around the room and spot check each students progress on the assignment from the previous night. Absences It is the students responsibility to get any notes or materials from any class missed. When asking for the materials or notes students need to select an appropriate time: before or after class, before or after school, or during lunch. If the excused absence falls on a test or quiz day, students will be given a reasonable amount of time to make up the assessment either at lunch or before or after school. If the absence is unexcused any assessment or assignment will not be able to be made up. In other words, if you skip class you cannot get points for anything that was done that day. Remember it is your responsibility to make sure that your absences get excused! Tutoring I will be available every day at lunch and after school on both Tuesdays and Thursdays from 2:00-3:00. Study Groups While it is not required, it is highly recommended that you form a study group with a handful of other students in the class. These should be people you can learn from and who you are able to stay on task with. AP Stuff AP Calculus BC Test: ________________________ I feel that the best way to prepare for the AP test is to continually practice AP problems. As such these type of questions will be embedded in tests, quizzes, assignments, warm-ups, etc. As we get closer to the test we will take numerous mock-AP tests in class. These will be real AP tests from years past. Technology Requirement Students will use a graphing calculator on a daily basis in order to explore topics and expand the difficulty and thus novelty of problems they can solve in the course. The graphing calculator will also aid students in supporting conclusions to solutions obtained without a calculator. Students should already be comfortable with graphing a function, setting an arbitrary window, and finding the zeros of a function. I will use a TI-80's series calculator. Course Outline Chapter AB: AB Topics Review (2 weeks) Content and/or skills taught: Review of limits, derivatives, and relationship between f, f, and f. Chapter 4: Integration (2 weeks) Content and/or skills taught: Use the anti-derivative to solve problems involving motion along a straight line when given initial conditions. This includes position, velocity and acceleration. Compute estimate the area under a curve using the Trapezoidal Rule and Riemann sums using left endpoints, right endpoints, and midpoints as evaluation points. Define the definite integral as the limit of a Riemann sum (take off bolding) Use the First Fundamental Theorem of Calculus to evaluate definite integrals. Calculate antiderivatives using substitution of variables and change of limits. Use the Mean Value Theorem for integrals to find the average value of a function on an interval. Use the Second Fundamental Theorem of Calculus to find derivatives. Major Assignments and/or Assessments: Students will explain how the area under a curve can be approximated and how to progress from an approximation to the exact area. Chapter 5: Logarithmic, Exponential, and Other Transcendental Functions (2 weeks) Content and/or skills taught: Define Eulers number as a limit Define the natural log function as the under the curve for f(x) = 1/x, from 1 to x. Differentiate exponential and logarithmic functions. Use logarithmic differentiation to compute a derivative Find the derivative of the inverse of a function. Use logarithmic differentiation to find derivative of complicated functions. Differentiate and integrate general exponential and logarithmic functions. Differentiate and Integrate inverse trig functions. Chapter 6: Differential Equations (2.5 weeks) Content and/or skills taught: Construct a slope field to show the geometric interpretation of a differential equation, and use a slope field to show the solution curves for a differential equation. Approximating function values using Eulers method. Find general and particular solutions to differential equations using separation of variables, including y = ky for growth and decay, and y = ky(1-y/L) for the logistic equation. Derive the logistic equation from a generalized population growth situation. Major Assignments and/or Assessments: Explain how Eulers Method approximates the differential equation of a given function. Interpret the graph of a population growth situation and explain how the initial conditions of a population growth situation affect the population graph. Chapter Test and quizzes. Chapter 7: Applications of Integration (2 weeks) Content and/or skills taught: Use definite integral to find the area under a curve. Use definite integrals to find the area between two curves. Use definite integrals to find the volume of solids of revolution and solids of a known cross sectional area. Apply integrals to various areas of the physical world Chapter 8: Integration Techniques, LHopitals Rule, and Improper Integrals (3 weeks) Content and/or skills taught: Use integration by parts to evaluate integrals. Use partial fractions to evaluate an integral. Use trig identities to change an integral into a form that can be evaluated directly. Identify and manipulate indeterminate forms in the application of LHpitals Rule. Understand the definitions of convergence and divergence both analytically and graphically. Use improper integrals to evaluate definite integrals with infinite limits. Use definite integrals to find the arc length of a curve. Chapter 10: Parametric Equations, and Polar Coordinates (3 weeks) Content and/or skills taught: Parametric equations: graphing and eliminating the parameter. Parametric form of a derivative as it applies to slope and arc length of a curve. Polar coordinates, polar conversion, and polar graphs. Polar form of a derivative as it applies to slope. Area of a polar region and arc length of a polar curve. Chapter 11&12: Vectors, 3-Dimensional Functions, Vector-Valued Functions (2 weeks) Content and/or skills taught: Vectors and vector-valued functions. Vector form of a derivative. Applications of vector derivative, including velocity, acceleration, and speed. Chapter 9: Infinite Series (8 weeks) Content and/or skills taught: Representing functions using power series, including operations. Taylor and Maclaurin series representations of elementary functions. Taylor polynomial approximations of elementary functions, including Maclaurin polynomials. Sequences: their properties, and finding their limits. Bounded and monotonic behavior of sequences. Definition of series, and nth partial sum. Convergent and divergent series, including geometric series and telescoping series. nth term test for divergence. The integral test and p-series test, including harmonic series. Direct comparison and limit comparison tests. Alternating series test and alternating series remainder. Absolute and conditional convergence. Ratio and root tests. Power series, including radius and intervals of convergence. Differentiation and integration of a power series, including their intervals of convergence. Taylors Theorem to find the Lagrange form of the remainder of a Taylor polynomial. Chapter AP: Review and Practice for the AP Test (4 weeks) Content and/or skills taught: Review second year calculus topics. Practice taking AP tests. Post-AP Test Unit: Calculus Projects and Outreach (1 week) Textbooks Primary Text Title: Calculus of a Single Variable Publisher: Houghton Mifflin Company Published Date: 2006 Author: Larson, Hostetler, Edwards Secondary Text Title: Calculus: Concepts and Applications Publisher: Key Curriculum Press Published Date: 2005 Author: Foerester *Students will work on AP Free Response questions in a group setting. Together, they will solve speed/velocity/acceleration problems and justify their answers in written form. The instructor will focus on showing students how to justify their solutions adequately. Signature Page Please read the following statement and print and sign your name. Also provide the most reliable way of contacting you if youd like to include multiple ways to contact you please feel free!  Student (Signature) Parent (Signature)  Student (Print) Parent (Print)  Reliable Contact Method   !"5 6 }    O [  i*+,89%'FG~ʓhh55 h'5 h55hh5>* h5>* h55>*h<Kh55 h<Kh5 hnt!h5hnt!h55 ht*h5 hh5h,OJQJ^Jh5>h55CJ \h,5CJ \h5h,4"18UVWj| }  v ( i j   O b gd5gd5$a$gd5$a$$a$ +,9 GH}~`abc & Fgd5$a$gd5gd5gd5gd5#BN^`abcrs&DEżŜzmch=OJQJ^Jh'h'OJQJ^J h=h= h55\h'OJQJ^Jh:"OJQJ^J ht`5\h=h=\ h=6\h=h=6\ h=\h= h=5\h;h;\ h;\ h;5\ ht*h5h55>*CJ\h'h5 hN!h5"crs&'E#s? & F7$8$H$gd' & F7$8$H$gd=gd= 7$8$H$gd'gd5/"#Rs>?J  34T͵zpf\f\f\fhL2OJQJ^Jht`OJQJ^Jh:"OJQJ^J ht`5\ht`ht`5\ hL2h5 hL2hL2 hL2h= h55\h5h'OJQJ^Jh'h'OJQJ^Jh=5OJQJ^Jh=h'5OJQJ^Jh=h=5OJQJ^Jh=OJQJ^Jh=h'OJQJ^J$4UHDEc ??@A 7$8$H$^gde- & F7$8$H$gde- & F7$8$H$gdt` & F7$8$H$gdt` 7$8$H$gdt`7<Dbc@ABghY t v z!{!~!!!!!!)"4"R"S""##K#N#S#T#\#{###$?$׿͡⍀hhOJQJ^JhOJQJ^JhYxHOJQJ^Jhe-ht`OJQJ^Jh5>OJQJ^J he-h5 he-he- hYxH5\he-OJQJ^Jh5 h55\ht`OJQJ^Jh:"OJQJ^Jht`ht`5\-ABhZ t u v 9!!!!!4"5"S"""#\# & F7$8$H$gd & F7$8$H$gdt` & F7$8$H$gde- & F7$8$H$gdt` 7$8$H$gdt`\##$@$A$B$$$$$$4%k%%%%%%,&-&K&p& & F7$8$H$gd & F7$8$H$gdgd 7$8$H$gd & F7$8$H$gd & F7$8$H$gdt`?$@$A$B$y$|$$$$%%%%!&,&J&K&&&&&&'"'#'d'(()))žźžŠρzm`O hlht`CJOJQJ^JaJhYxHhYxHOJQJ^Jht`hYxHOJQJ^J h55\ht`OJQJ^Jht`ht`5\hhB*phhB*phh8h5OJQJ^Jh5>h h5\hOJQJ^JhYxHOJQJ^Jht`h5OJQJ^Jh5>B*phh5hhe-OJQJ^Jp&&&&&''#'d''(;(h((()E)s))))&*** & F7$8$H$gdt` & F7$8$H$gdYxH 7$8$H$gdt` & F7$8$H$gd))****** + ++1+7+9+?+q+++++++++++++J,K,Z,,,----....//!/¾ʺ¾ʰ”ºѺŠ|||jh5UmHnHuh<h55CJ"hYxHhYxH5hYxH5>*CJ\h5>5>*CJ\h55>*CJ\hYxHh5>h5h8 h55\ht`h5>OJQJ^Jht`OJQJ^JhYxHOJQJ^JhYxHhYxHOJQJ^J+***++2+V+p+q+++++++++++,',J,K,Z,,,, gdYxHgdYxH`gdYxH & F,,,-----........./////// / :gd5gd5$a$gd5gdYxHh^hgdt` gdYxH /!/20p1X/ =!"#$% ^^ 666666666vvvvvvvvv66666686666666666666666666666666666666666666666666666666hH6666666666666666666666666666666666666666666666666666666666666666666866666662 0@P`p2( 0@P`p 0@P`p 0@P`p 0@P`p 0@P`p(8HX`~_HmH nH sH tH D`D Normal*$CJ_HaJmH sH tHL@L  Heading 1@& & F & F$ CJ 5\J@J  Heading 2$ & F@& CJ>*5\DA D Default Paragraph FontViV 0 Table Normal :V 44 la (k ( 0No List .o. WW8Num1z0o(*/* WW8Num1z1*/* WW8Num1z2*/!* WW8Num1z3*/1* WW8Num1z4*/A* WW8Num1z5*/Q* WW8Num1z6*/a* WW8Num1z7*/q* WW8Num1z8.o. WW8Num2z0o(.o. WW8Num3z0o(4o4 WW8Num4z0 5\o(.o. WW8Num5z0o(.o. WW8Num6z0o(.o. WW8Num7z0o(.o. WW8Num8z0o(*/* WW8Num8z1*/* WW8Num8z2*/* WW8Num8z3*/!* WW8Num8z4*/1* WW8Num8z5*/A* WW8Num8z6*/Q* WW8Num8z7*/a* WW8Num8z8*/q* WW8Num2z1*/* WW8Num2z2*/* WW8Num2z3*/* WW8Num2z4*/* WW8Num2z5*/* WW8Num2z6*/* WW8Num2z7*/* WW8Num2z8*/* WW8Num3z1*/* WW8Num3z2*/* WW8Num3z3*/!* WW8Num3z4*/1* WW8Num3z5*/A* WW8Num3z6*/Q* WW8Num3z7*/a* WW8Num3z8*/q* WW8Num4z1*/* WW8Num4z2*/* WW8Num4z3*/* WW8Num4z4*/* WW8Num4z5*/* WW8Num4z6*/* WW8Num4z7*/* WW8Num4z8*/* WW8Num5z1*/* WW8Num5z2*/* WW8Num5z3*/!* WW8Num5z4*/1* WW8Num5z5*/A* WW8Num5z6*/Q* WW8Num5z7*/a* WW8Num5z8*/q* WW8Num6z1*/* WW8Num6z2*/* WW8Num6z3*/* WW8Num6z4*/* WW8Num6z5*/* WW8Num6z6*/* WW8Num6z7*/* WW8Num6z8*/* WW8Num7z1*/* WW8Num7z2*/* WW8Num7z3*/!* WW8Num7z4*/1* WW8Num7z5*/A* WW8Num7z6*/Q* WW8Num7z7*/a* WW8Num7z8DA qD Default Paragraph Font:/: Numbering SymbolsNON Heading Yx$OJQJCJPJ^JaJ6B@6 Body Text Zx(/@( List[^JH"@H Caption \xx $CJ6^JaJ].O. Index] $^JPK![Content_Types].xmlN0EH-J@%ǎǢ|ș$زULTB l,3;rØJB+$G]7O٭V$ !)O^rC$y@/yH*񄴽)޵߻UDb`}"qۋJחX^)I`nEp)liV[]1M<OP6r=zgbIguSebORD۫qu gZo~ٺlAplxpT0+[}`jzAV2Fi@qv֬5\|ʜ̭NleXdsjcs7f W+Ն7`g ȘJj|h(KD- dXiJ؇(x$( :;˹! I_TS 1?E??ZBΪmU/?~xY'y5g&΋/ɋ>GMGeD3Vq%'#q$8K)fw9:ĵ x}rxwr:\TZaG*y8IjbRc|XŻǿI u3KGnD1NIBs RuK>V.EL+M2#'fi ~V vl{u8zH *:(W☕ ~JTe\O*tHGHY}KNP*ݾ˦TѼ9/#A7qZ$*c?qUnwN%Oi4 =3N)cbJ uV4(Tn 7_?m-ٛ{UBwznʜ"Z xJZp; {/<P;,)''KQk5qpN8KGbe Sd̛\17 pa>SR! 3K4'+rzQ TTIIvt]Kc⫲K#v5+|D~O@%\w_nN[L9KqgVhn R!y+Un;*&/HrT >>\ t=.Tġ S; Z~!P9giCڧ!# B,;X=ۻ,I2UWV9$lk=Aj;{AP79|s*Y;̠[MCۿhf]o{oY=1kyVV5E8Vk+֜\80X4D)!!?*|fv u"xA@T_q64)kڬuV7 t '%;i9s9x,ڎ-45xd8?ǘd/Y|t &LILJ`& -Gt/PK! ѐ'theme/theme/_rels/themeManager.xml.relsM 0wooӺ&݈Э5 6?$Q ,.aic21h:qm@RN;d`o7gK(M&$R(.1r'JЊT8V"AȻHu}|$b{P8g/]QAsم(#L[PK-![Content_Types].xmlPK-!֧6 0_rels/.relsPK-!kytheme/theme/themeManager.xmlPK-!0C)theme/theme/theme1.xmlPK-! ѐ' theme/theme/_rels/themeManager.xml.relsPK] !' P?$)!/"$ cA\#p&*, /!/ !#%&'8@\(  B  v0e0eY?F@ VW"VAU#" Ԕ?B  v0e0eY?F@ VW"VAU#" Ԕ?B  v0e0eY?F@ VW"VAU#" Ԕ?B  v0e0eY?F@ VW"VAU#" Ԕ?B  v0e0eY?F@ VW"VAU#" Ԕ?B S  ?&&&&'!'s ss@ s @  '0-< JUox$$#' Zs #'333333@AAA""""""8#9#####I$$ '#'\-ʐh6\0rbJuJ*#F^Nz*YxHt`'8 :"=;,Eq5!'#'@####!'X@UnknownG.Cx Times New Roman5Symbol3. .Cx Arial3.Cx TimesG. R<(Microsoft YaHeiM MangalCourier NewA$BCambria Math"AhGGGJ!GJ!G24''0KQ N! AP Calculus AB Syllabus AlixMonsterMike Lanzaronel                   Oh+'0  8 D P \hpxAP Calculus AB Syllabus AlixMonsterNormalMike Lanzarone3Microsoft Office Word@@@ &@J!՜.+,0 hp|  ʮϲG' AP Calculus AB Syllabus Title  !"#$%&'(*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXZ[\]^_`bcdefghkRoot Entry Fq:m1Table)^WordDocument4PSummaryInformation(YDocumentSummaryInformation8aCompObjr  F Microsoft Word 97-2003 Document MSWordDocWord.Document.89q