Länkar

Roger Bengtsson har en sajt på wikidot. Den är CC och innehåller mycket bra förklarande texter, mm.
Daniel Barker har en sajt med flera kurser på gy 11 och gamla gymnasiet. Här är Ma3c. Daniel är en föregångare på flipped classroom. Det är fritt att läsa och använda men inte full CC (dvs du kan inte själv gå in och ändra).
Centralt innehåll Ma3C

Trigonometri

Gränsvärden

Introduktionsföreläsning i två grupper

Vad händer med uttrycket när x närmar sig 4?

Lösning i WolframAlpha: http://www.wolframalpha.com/input/?i=lim+x-%3E4+f%28x%29+%3D+%28x%5E%280.5%29+-+2%29+%2F+%28x²+-+5x+%2B+4%29

Lösning i tabell-GGB

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Grafen

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Lars Adiels är lärare på Norra Real och har skapat sidor om gränsvärden

Här kommer text om gränsvärden.

Upplägget.

Motivering.

Omgivningar.

Intervall

Om vi tänker oss alla tal mellan två tal a och b så kallas det ett intervall. Det finns intervall av tre typer. Öppna intervall, slutna intervall och halvöppna intervall (se figurer). Här gör man så att man ritar öppna cirklar när punkten inte ingår i intervallet och fyllda cirklar när det ingår. Intervallet [math]\displaystyle{ ]1 ,4[ }[/math] är alltså ett öppet intervall dvs 1<x<4. Det indikeras av att hakparenteserna inte sluter om.

På samma sätt är [math]\displaystyle{ [0.5 , 5] }[/math] slutet.[math]\displaystyle{ ( 0.5\le x\le5 ) }[/math] och de två sista intervallen halvöppna.

Alltså

Definition
Ett öppet intervall ]a,b[ består av alla tal x mellan a och b utom a och b ; a<x<b

Uppgift

Rita tallinjer och lägg in intervallen 2<x≤3 ; 4<x<6 ; 1≤x≤1.1

Du kan rita i Geogebra.

Du kan också rita på eget papper eller trycka ut detta papper

Facit: (klicka expandera till höger)

Uppgift

lägg också in intervallet nedan på en ytterligare tallinje

[math]\displaystyle{ \pi\leq x }[/math].

Tänk! Detta är ett halvöppet intervall som man också kan skriva ::[math]\displaystyle{ \pi\leq\ x\lt \infty }[/math]

Oändlikhetsymbolen [math]\displaystyle{ \infty }[/math] kommer att förklaras mer senare.

Inre punkt i ett intervall

Om en punkt A finns inne i ett intervall kallas den inre punkt i till intervallet.

plats för figur

Definition

En punkt A som ligger ligger helt inne i ett intervall kallas inre punkt till intervallet.

Tänk! Bara punkter A som uppfyller [math]\displaystyle{ a\lt A\lt b }[/math] är inre punkter till intervallet [math]\displaystyle{ a\leq A\leq b }[/math]

Uppgift
Vilket eller vilka av talen [math]\displaystyle{ 1 ; 1.414 ; \sqrt{2} ; 3 ; \pi }[/math] är inre punkter till intervallen [math]\displaystyle{ ] 1.414 , \pi ] }[/math] [math]\displaystyle{ [ \sqrt{2} , \sqrt{10} ] }[/math]

Facit: (klicka expandera till höger)

Uppgift

1 [math]\displaystyle{ \sqrt{2}, 3 }[/math] därför att 1.414 ingår inte (öppet) och [math]\displaystyle{ \pi }[/math] är inte inre punkt! det är endast en (kant)punkt ett slutet intervall

2 3 och [math]\displaystyle{ \pi }[/math]

Omgivning

Definition
Om en punkt A är inre punkt till ett öppet intervall U kallas U en omgivning till A

Ofta kommer vi att använda symmetriska omgivningar till en punkt som [math]\displaystyle{ A-\epsilon\lt A\lt A+\epsilon }[/math]

där [math]\displaystyle{ \epsilon }[/math] är ett godtyckligt positivt tal > 0 (ofta litet) tal. Det kan också skrivas [math]\displaystyle{ ]A-\epsilon, A+\epsilon[ }[/math].

Uppgift
Uppgifter på omgivningar

Punkterade omgivningar

Ibland undantar man A från själva omgivningen till A då kallas det en punkterad.

Definition
De sammanslagna intervallen [math]\displaystyle{ P_-= \rm{A-a\lt x\lt A} }[/math] och [math]\displaystyle{ P_+=\rm{A\lt x\lt A+b} }[/math] kallas en punkterad omgivning P till A Det kan också skrivas så här: P är alla x som uppfyller [math]\displaystyle{ ]a,A[ och ]A,b[ }[/math] där a<A och b>A

Tänk! Observera intervallen ovan är öppna

plats för figur

Uppgift
uppgifter punkterade omgivningar

Vänster och höger omgivningar

Oegentliga gränsvärden

Gränsvärden.

Alternativa definitioner.

Facit till vissa uppgifter

GeoGebra

Tangent och sekant

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Övning gränsvärden

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Arean mellan kurvorna

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Ser fram emot detta. --Håkan Elderstig 28 augusti 2012 kl. 21.15 (UTC)

Derivator

Provkarta

Denna sida är ett slags provkarta på vad wikiskola har att erbjuda och visar olika typer av delar som kan ingå i en sida. Här finns bilder som ligger på wikimedia, formler som kopierats från wikipedia, filmer, GeoGebra, en quiz och en widget från Wolfram Alpha. Det finns mallar för exempel (blå), definitioner (rosa), länkar, (bruna), uppgifter, (gula), bokhänvisningar (lila), tänkare (orange) samt Khanövningar (gröna).

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Problemlösning med derivatan

Detta är en sammanfattning som introduktion till avsnittet om derivator. Den innehåller ett fysikproblem med en måsjägare.

3.2 Derivator

Använda derivatans definition

Deriveringsregler för polynom

Tillämpningar på derivata

3.3 Derivator och grafer

Rita kurvor med hjälp av derivatan

Största och minsta värde

Derivatans graf

Andraderivatan

Maximi- och minimiproblem

3.4 Merom derivator

Lite Algebra

Derivatan av potensfunktioner

Diskontinuerliga funktioner

Diskreta funktioner

Inflexionspunkt och derivata

Tillämpningar (ej i Liber)

Derivator kommer till användning på många områden inom naturvetenskap, ekonomi, mm. Här kommer ett exempel från fysiken.

Exempel

Tryck

Antag att [math]\displaystyle{ p(h) }[/math] betyder lufttrycket (i pascal) vid höjden [math]\displaystyle{ h }[/math] (i meter) över havsnivån. Då kommer derivatan [math]\displaystyle{ p'(h) }[/math] att ange hur mycket trycket ökar per meter i höjdled. Derivatan får alltså den fysikaliska enheten pascal per meter. Eftersom trycket i själva verket avtar med höjden, kommer alltså derivatan att bli negativ.

Texten i ovanstående avsnitt kommer från Wikipedia.se

Derivataquiz

Läs mer:

Bruno Kevius om derivatan
Matteboken Matte C har innehåll om derivator
Matteboken Matte D
GGB-övningar i mängder. A-nivå

Prov

Om Digitala prov

Integraler

Kan man tänka sig någon trevlig frågeställning som ingång till integralerna?

	x²
	3x²
	6x²
	x³/3

	Sannt.
	Falskt.

	Sannt.
	Falskt.

Matematik 3C