MATHHXB|Gå til Mat-A|Download PDF|Info

MATHHX B

\(\newcommand{\footnotename}{footnote}\) \(\def \LWRfootnote {1}\) \(\newcommand {\footnote }[2][\LWRfootnote ]{{}^{\mathrm {#1}}}\) \(\newcommand {\footnotemark }[1][\LWRfootnote ]{{}^{\mathrm {#1}}}\) \(\let \LWRorighspace \hspace \) \(\renewcommand {\hspace }{\ifstar \LWRorighspace \LWRorighspace }\) \(\newcommand {\mathnormal }[1]{{#1}}\) \(\newcommand \ensuremath [1]{#1}\) \(\newcommand {\LWRframebox }[2][]{\fbox {#2}} \newcommand {\framebox }[1][]{\LWRframebox } \) \(\newcommand {\setlength }[2]{}\) \(\newcommand {\addtolength }[2]{}\) \(\newcommand {\setcounter }[2]{}\) \(\newcommand {\addtocounter }[2]{}\) \(\newcommand {\arabic }[1]{}\) \(\newcommand {\number }[1]{}\) \(\newcommand {\noalign }[1]{\text {#1}\notag \\}\) \(\newcommand {\cline }[1]{}\) \(\newcommand {\directlua }[1]{\text {(directlua)}}\) \(\newcommand {\luatexdirectlua }[1]{\text {(directlua)}}\) \(\newcommand {\protect }{}\) \(\def \LWRabsorbnumber #1 {}\) \(\def \LWRabsorbquotenumber "#1 {}\) \(\newcommand {\LWRabsorboption }[1][]{}\) \(\newcommand {\LWRabsorbtwooptions }[1][]{\LWRabsorboption }\) \(\def \mathchar {\ifnextchar "\LWRabsorbquotenumber \LWRabsorbnumber }\) \(\def \mathcode #1={\mathchar }\) \(\let \delcode \mathcode \) \(\let \delimiter \mathchar \) \(\def \oe {\unicode {x0153}}\) \(\def \OE {\unicode {x0152}}\) \(\def \ae {\unicode {x00E6}}\) \(\def \AE {\unicode {x00C6}}\) \(\def \aa {\unicode {x00E5}}\) \(\def \AA {\unicode {x00C5}}\) \(\def \o {\unicode {x00F8}}\) \(\def \O {\unicode {x00D8}}\) \(\def \l {\unicode {x0142}}\) \(\def \L {\unicode {x0141}}\) \(\def \ss {\unicode {x00DF}}\) \(\def \SS {\unicode {x1E9E}}\) \(\def \dag {\unicode {x2020}}\) \(\def \ddag {\unicode {x2021}}\) \(\def \P {\unicode {x00B6}}\) \(\def \copyright {\unicode {x00A9}}\) \(\def \pounds {\unicode {x00A3}}\) \(\let \LWRref \ref \) \(\renewcommand {\ref }{\ifstar \LWRref \LWRref }\) \( \newcommand {\multicolumn }[3]{#3}\) \(\require {textcomp}\) \(\require {colortbl}\) \(\let \LWRorigcolumncolor \columncolor \) \(\renewcommand {\columncolor }[2][named]{\LWRorigcolumncolor [#1]{#2}\LWRabsorbtwooptions }\) \(\let \LWRorigrowcolor \rowcolor \) \(\renewcommand {\rowcolor }[2][named]{\LWRorigrowcolor [#1]{#2}\LWRabsorbtwooptions }\) \(\let \LWRorigcellcolor \cellcolor \) \(\renewcommand {\cellcolor }[2][named]{\LWRorigcellcolor [#1]{#2}\LWRabsorbtwooptions }\) \(\newcommand {\tothe }[1]{^{#1}}\) \(\newcommand {\raiseto }[2]{{#2}^{#1}}\) \(\newcommand {\LWRsiunitxEND }{}\) \(\def \LWRsiunitxang #1;#2;#3;#4\LWRsiunitxEND {\ifblank {#1}{}{\num {#1}\degree }\ifblank {#2}{}{\num {#2}^{\unicode {x2032}}}\ifblank {#3}{}{\num {#3}^{\unicode {x2033}}}}\) \(\newcommand {\ang }[2][]{\LWRsiunitxang #2;;;\LWRsiunitxEND }\) \(\def \LWRsiunitxdistribunit {}\) \(\newcommand {\LWRsiunitxENDTWO }{}\) \(\def \LWRsiunitxprintdecimalsubtwo #1,#2,#3\LWRsiunitxENDTWO {\ifblank {#1}{0}{\mathrm {#1}}\ifblank {#2}{}{{\LWRsiunitxdecimal }\mathrm {#2}}}\) \(\def \LWRsiunitxprintdecimalsub #1.#2.#3\LWRsiunitxEND {\LWRsiunitxprintdecimalsubtwo #1,,\LWRsiunitxENDTWO \ifblank {#2}{}{{\LWRsiunitxdecimal }\LWRsiunitxprintdecimalsubtwo #2,,\LWRsiunitxENDTWO }}\) \(\newcommand {\LWRsiunitxprintdecimal }[1]{\LWRsiunitxprintdecimalsub #1...\LWRsiunitxEND }\) \(\def \LWRsiunitxnumplus #1+#2+#3\LWRsiunitxEND {\ifblank {#2}{\LWRsiunitxprintdecimal {#1}}{\ifblank {#1}{\LWRsiunitxprintdecimal {#2}}{\LWRsiunitxprintdecimal {#1}\unicode {x02B}\LWRsiunitxprintdecimal {#2}}}\LWRsiunitxdistribunit }\) \(\def \LWRsiunitxnumminus #1-#2-#3\LWRsiunitxEND {\ifblank {#2}{\LWRsiunitxnumplus #1+++\LWRsiunitxEND }{\ifblank {#1}{}{\LWRsiunitxprintdecimal {#1}}\unicode {x02212}\LWRsiunitxprintdecimal {#2}\LWRsiunitxdistribunit }}\) \(\def \LWRsiunitxnumpmmacro #1\pm #2\pm #3\LWRsiunitxEND {\ifblank {#2}{\LWRsiunitxnumminus #1---\LWRsiunitxEND }{\LWRsiunitxprintdecimal {#1}\unicode {x0B1}\LWRsiunitxprintdecimal {#2}\LWRsiunitxdistribunit }}\) \(\def \LWRsiunitxnumpm #1+-#2+-#3\LWRsiunitxEND {\ifblank {#2}{\LWRsiunitxnumpmmacro #1\pm \pm \pm \LWRsiunitxEND }{\LWRsiunitxprintdecimal {#1}\unicode {x0B1}\LWRsiunitxprintdecimal {#2}\LWRsiunitxdistribunit }}\) \(\newcommand {\LWRsiunitxnumscientific }[2]{\ifblank {#1}{}{\ifstrequal {#1}{-}{-}{\LWRsiunitxprintdecimal {#1}\times }}10^{\LWRsiunitxprintdecimal {#2}}\LWRsiunitxdistribunit }\) \(\def \LWRsiunitxnumD #1D#2D#3\LWRsiunitxEND {\ifblank {#2}{\LWRsiunitxnumpm #1+-+-\LWRsiunitxEND }{\mathrm {\LWRsiunitxnumscientific {#1}{#2}}}}\) \(\def \LWRsiunitxnumd #1d#2d#3\LWRsiunitxEND {\ifblank {#2}{\LWRsiunitxnumD #1DDD\LWRsiunitxEND }{\mathrm {\LWRsiunitxnumscientific {#1}{#2}}}}\) \(\def \LWRsiunitxnumE #1E#2E#3\LWRsiunitxEND {\ifblank {#2}{\LWRsiunitxnumd #1ddd\LWRsiunitxEND }{\mathrm {\LWRsiunitxnumscientific {#1}{#2}}}}\) \(\def \LWRsiunitxnume #1e#2e#3\LWRsiunitxEND {\ifblank {#2}{\LWRsiunitxnumE #1EEE\LWRsiunitxEND }{\mathrm {\LWRsiunitxnumscientific {#1}{#2}}}}\) \(\def \LWRsiunitxnumx #1x#2x#3x#4\LWRsiunitxEND {\ifblank {#2}{\LWRsiunitxnume #1eee\LWRsiunitxEND }{\ifblank {#3}{\LWRsiunitxnume #1eee\LWRsiunitxEND \times \LWRsiunitxnume #2eee\LWRsiunitxEND }{\LWRsiunitxnume #1eee\LWRsiunitxEND \times \LWRsiunitxnume #2eee\LWRsiunitxEND \times \LWRsiunitxnume #3eee\LWRsiunitxEND }}}\) \(\newcommand {\num }[2][]{\LWRsiunitxnumx #2xxxxx\LWRsiunitxEND }\) \(\newcommand {\si }[2][]{\mathrm {\gsubstitute {#2}{~}{\,}}}\) \(\def \LWRsiunitxSIopt #1[#2]#3{\def \LWRsiunitxdistribunit {\,\si {#3}}{#2}\num {#1}\def \LWRsiunitxdistribunit {}}\) \(\newcommand {\LWRsiunitxSI }[2]{\def \LWRsiunitxdistribunit {\,\si {#2}}\num {#1}\def \LWRsiunitxdistribunit {}}\) \(\newcommand {\SI }[2][]{\ifnextchar [{\LWRsiunitxSIopt {#2}}{\LWRsiunitxSI {#2}}}\) \(\newcommand {\numlist }[2][]{\text {#2}}\) \(\newcommand {\numrange }[3][]{\num {#2}\ \LWRsiunitxrangephrase \ \num {#3}}\) \(\newcommand {\SIlist }[3][]{\text {#2}\,\si {#3}}\) \(\newcommand {\SIrange }[4][]{\num {#2}\,#4\ \LWRsiunitxrangephrase \ \num {#3}\,#4}\) \(\newcommand {\tablenum }[2][]{\mathrm {#2}}\) \(\newcommand {\ampere }{\mathrm {A}}\) \(\newcommand {\candela }{\mathrm {cd}}\) \(\newcommand {\kelvin }{\mathrm {K}}\) \(\newcommand {\kilogram }{\mathrm {kg}}\) \(\newcommand {\metre }{\mathrm {m}}\) \(\newcommand {\mole }{\mathrm {mol}}\) \(\newcommand {\second }{\mathrm {s}}\) \(\newcommand {\becquerel }{\mathrm {Bq}}\) \(\newcommand {\degreeCelsius }{\unicode {x2103}}\) \(\newcommand {\coulomb }{\mathrm {C}}\) \(\newcommand {\farad }{\mathrm {F}}\) \(\newcommand {\gray }{\mathrm {Gy}}\) \(\newcommand {\hertz }{\mathrm {Hz}}\) \(\newcommand {\henry }{\mathrm {H}}\) \(\newcommand {\joule }{\mathrm {J}}\) \(\newcommand {\katal }{\mathrm {kat}}\) \(\newcommand {\lumen }{\mathrm {lm}}\) \(\newcommand {\lux }{\mathrm {lx}}\) \(\newcommand {\newton }{\mathrm {N}}\) \(\newcommand {\ohm }{\mathrm {\Omega }}\) \(\newcommand {\pascal }{\mathrm {Pa}}\) \(\newcommand {\radian }{\mathrm {rad}}\) \(\newcommand {\siemens }{\mathrm {S}}\) \(\newcommand {\sievert }{\mathrm {Sv}}\) \(\newcommand {\steradian }{\mathrm {sr}}\) \(\newcommand {\tesla }{\mathrm {T}}\) \(\newcommand {\volt }{\mathrm {V}}\) \(\newcommand {\watt }{\mathrm {W}}\) \(\newcommand {\weber }{\mathrm {Wb}}\) \(\newcommand {\day }{\mathrm {d}}\) \(\newcommand {\degree }{\mathrm {^\circ }}\) \(\newcommand {\hectare }{\mathrm {ha}}\) \(\newcommand {\hour }{\mathrm {h}}\) \(\newcommand {\litre }{\mathrm {l}}\) \(\newcommand {\liter }{\mathrm {L}}\) \(\newcommand {\arcminute }{^\prime }\) \(\newcommand {\minute }{\mathrm {min}}\) \(\newcommand {\arcsecond }{^{\prime \prime }}\) \(\newcommand {\tonne }{\mathrm {t}}\) \(\newcommand {\astronomicalunit }{au}\) \(\newcommand {\atomicmassunit }{u}\) \(\newcommand {\bohr }{\mathit {a}_0}\) \(\newcommand {\clight }{\mathit {c}_0}\) \(\newcommand {\dalton }{\mathrm {D}_\mathrm {a}}\) \(\newcommand {\electronmass }{\mathit {m}_{\mathrm {e}}}\) \(\newcommand {\electronvolt }{\mathrm {eV}}\) \(\newcommand {\elementarycharge }{\mathit {e}}\) \(\newcommand {\hartree }{\mathit {E}_{\mathrm {h}}}\) \(\newcommand {\planckbar }{\mathit {\unicode {x210F}}}\) \(\newcommand {\angstrom }{\mathrm {\unicode {x212B}}}\) \(\let \LWRorigbar \bar \) \(\newcommand {\barn }{\mathrm {b}}\) \(\newcommand {\bel }{\mathrm {B}}\) \(\newcommand {\decibel }{\mathrm {dB}}\) \(\newcommand {\knot }{\mathrm {kn}}\) \(\newcommand {\mmHg }{\mathrm {mmHg}}\) \(\newcommand {\nauticalmile }{\mathrm {M}}\) \(\newcommand {\neper }{\mathrm {Np}}\) \(\newcommand {\yocto }{\mathrm {y}}\) \(\newcommand {\zepto }{\mathrm {z}}\) \(\newcommand {\atto }{\mathrm {a}}\) \(\newcommand {\femto }{\mathrm {f}}\) \(\newcommand {\pico }{\mathrm {p}}\) \(\newcommand {\nano }{\mathrm {n}}\) \(\newcommand {\micro }{\mathrm {\unicode {x00B5}}}\) \(\newcommand {\milli }{\mathrm {m}}\) \(\newcommand {\centi }{\mathrm {c}}\) \(\newcommand {\deci }{\mathrm {d}}\) \(\newcommand {\deca }{\mathrm {da}}\) \(\newcommand {\hecto }{\mathrm {h}}\) \(\newcommand {\kilo }{\mathrm {k}}\) \(\newcommand {\mega }{\mathrm {M}}\) \(\newcommand {\giga }{\mathrm {G}}\) \(\newcommand {\tera }{\mathrm {T}}\) \(\newcommand {\peta }{\mathrm {P}}\) \(\newcommand {\exa }{\mathrm {E}}\) \(\newcommand {\zetta }{\mathrm {Z}}\) \(\newcommand {\yotta }{\mathrm {Y}}\) \(\newcommand {\percent }{\mathrm {\%}}\) \(\newcommand {\meter }{\mathrm {m}}\) \(\newcommand {\metre }{\mathrm {m}}\) \(\newcommand {\gram }{\mathrm {g}}\) \(\newcommand {\kg }{\kilo \gram }\) \(\newcommand {\of }[1]{_{\mathrm {#1}}}\) \(\newcommand {\squared }{^2}\) \(\newcommand {\square }[1]{\mathrm {#1}^2}\) \(\newcommand {\cubed }{^3}\) \(\newcommand {\cubic }[1]{\mathrm {#1}^3}\) \(\newcommand {\per }{\,\mathrm {/}}\) \(\newcommand {\celsius }{\unicode {x2103}}\) \(\newcommand {\fg }{\femto \gram }\) \(\newcommand {\pg }{\pico \gram }\) \(\newcommand {\ng }{\nano \gram }\) \(\newcommand {\ug }{\micro \gram }\) \(\newcommand {\mg }{\milli \gram }\) \(\newcommand {\g }{\gram }\) \(\newcommand {\kg }{\kilo \gram }\) \(\newcommand {\amu }{\mathrm {u}}\) \(\newcommand {\nm }{\nano \metre }\) \(\newcommand {\um }{\micro \metre }\) \(\newcommand {\mm }{\milli \metre }\) \(\newcommand {\cm }{\centi \metre }\) \(\newcommand {\dm }{\deci \metre }\) \(\newcommand {\m }{\metre }\) \(\newcommand {\km }{\kilo \metre }\) \(\newcommand {\as }{\atto \second }\) \(\newcommand {\fs }{\femto \second }\) \(\newcommand {\ps }{\pico \second }\) \(\newcommand {\ns }{\nano \second }\) \(\newcommand {\us }{\micro \second }\) \(\newcommand {\ms }{\milli \second }\) \(\newcommand {\s }{\second }\) \(\newcommand {\fmol }{\femto \mol }\) \(\newcommand {\pmol }{\pico \mol }\) \(\newcommand {\nmol }{\nano \mol }\) \(\newcommand {\umol }{\micro \mol }\) \(\newcommand {\mmol }{\milli \mol }\) \(\newcommand {\mol }{\mol }\) \(\newcommand {\kmol }{\kilo \mol }\) \(\newcommand {\pA }{\pico \ampere }\) \(\newcommand {\nA }{\nano \ampere }\) \(\newcommand {\uA }{\micro \ampere }\) \(\newcommand {\mA }{\milli \ampere }\) \(\newcommand {\A }{\ampere }\) \(\newcommand {\kA }{\kilo \ampere }\) \(\newcommand {\ul }{\micro \litre }\) \(\newcommand {\ml }{\milli \litre }\) \(\newcommand {\l }{\litre }\) \(\newcommand {\hl }{\hecto \litre }\) \(\newcommand {\uL }{\micro \liter }\) \(\newcommand {\mL }{\milli \liter }\) \(\newcommand {\L }{\liter }\) \(\newcommand {\hL }{\hecto \liter }\) \(\newcommand {\mHz }{\milli \hertz }\) \(\newcommand {\Hz }{\hertz }\) \(\newcommand {\kHz }{\kilo \hertz }\) \(\newcommand {\MHz }{\mega \hertz }\) \(\newcommand {\GHz }{\giga \hertz }\) \(\newcommand {\THz }{\tera \hertz }\) \(\newcommand {\mN }{\milli \newton }\) \(\newcommand {\N }{\newton }\) \(\newcommand {\kN }{\kilo \newton }\) \(\newcommand {\MN }{\mega \newton }\) \(\newcommand {\Pa }{\pascal }\) \(\newcommand {\kPa }{\kilo \pascal }\) \(\newcommand {\MPa }{\mega \pascal }\) \(\newcommand {\GPa }{\giga \pascal }\) \(\newcommand {\mohm }{\milli \ohm }\) \(\newcommand {\kohm }{\kilo \ohm }\) \(\newcommand {\Mohm }{\mega \ohm }\) \(\newcommand {\pV }{\pico \volt }\) \(\newcommand {\nV }{\nano \volt }\) \(\newcommand {\uV }{\micro \volt }\) \(\newcommand {\mV }{\milli \volt }\) \(\newcommand {\V }{\volt }\) \(\newcommand {\kV }{\kilo \volt }\) \(\newcommand {\W }{\watt }\) \(\newcommand {\uW }{\micro \watt }\) \(\newcommand {\mW }{\milli \watt }\) \(\newcommand {\kW }{\kilo \watt }\) \(\newcommand {\MW }{\mega \watt }\) \(\newcommand {\GW }{\giga \watt }\) \(\newcommand {\J }{\joule }\) \(\newcommand {\uJ }{\micro \joule }\) \(\newcommand {\mJ }{\milli \joule }\) \(\newcommand {\kJ }{\kilo \joule }\) \(\newcommand {\eV }{\electronvolt }\) \(\newcommand {\meV }{\milli \electronvolt }\) \(\newcommand {\keV }{\kilo \electronvolt }\) \(\newcommand {\MeV }{\mega \electronvolt }\) \(\newcommand {\GeV }{\giga \electronvolt }\) \(\newcommand {\TeV }{\tera \electronvolt }\) \(\newcommand {\kWh }{\kilo \watt \hour }\) \(\newcommand {\F }{\farad }\) \(\newcommand {\fF }{\femto \farad }\) \(\newcommand {\pF }{\pico \farad }\) \(\newcommand {\K }{\mathrm {K}}\) \(\newcommand {\dB }{\mathrm {dB}}\) \(\newcommand {\kibi }{\mathrm {Ki}}\) \(\newcommand {\mebi }{\mathrm {Mi}}\) \(\newcommand {\gibi }{\mathrm {Gi}}\) \(\newcommand {\tebi }{\mathrm {Ti}}\) \(\newcommand {\pebi }{\mathrm {Pi}}\) \(\newcommand {\exbi }{\mathrm {Ei}}\) \(\newcommand {\zebi }{\mathrm {Zi}}\) \(\newcommand {\yobi }{\mathrm {Yi}}\) \(\let \unit \si \) \(\let \qty \SI \) \(\let \qtylist \SIlist \) \(\let \qtyrange \SIrange \) \(\let \numproduct \num \) \(\let \qtyproduct \SI \) \(\let \complexnum \num \) \(\newcommand {\complexqty }[3][]{(\complexnum {#2})\si {#3}}\) \(\newcommand {\mleft }{\left }\) \(\newcommand {\mright }{\right }\) \(\newcommand {\mleftright }{}\) \(\newcommand {\mleftrightrestore }{}\) \(\require {gensymb}\) \(\newcommand {\intertext }[1]{\text {#1}\notag \\}\) \(\let \Hat \hat \) \(\let \Check \check \) \(\let \Tilde \tilde \) \(\let \Acute \acute \) \(\let \Grave \grave \) \(\let \Dot \dot \) \(\let \Ddot \ddot \) \(\let \Breve \breve \) \(\let \Bar \bar \) \(\let \Vec \vec \) \(\require {cancel}\) \(\newcommand {\Dm }{\operatorname {Dm}}\) \(\newcommand {\Vm }{\operatorname {Vm}}\) \(\newcommand {\Var }{\operatorname {Var}}\) \(\newcommand {\tcbset }[1]{}\) \(\newcommand {\tcbsetforeverylayer }[1]{}\) \(\newcommand {\tcbox }[2][]{\boxed {\text {#2}}}\) \(\newcommand {\tcboxfit }[2][]{\boxed {#2}}\) \(\newcommand {\tcblower }{}\) \(\newcommand {\tcbline }{}\) \(\newcommand {\tcbtitle }{}\) \(\newcommand {\tcbsubtitle [2][]{\mathrm {#2}}}\) \(\newcommand {\tcboxmath }[2][]{\boxed {#2}}\) \(\newcommand {\tcbhighmath }[2][]{\boxed {#2}}\) \(\newcommand {\toprule }[1][]{\hline }\) \(\let \midrule \toprule \) \(\let \bottomrule \toprule \) \(\def \LWRbooktabscmidruleparen (#1)#2{}\) \(\newcommand {\LWRbooktabscmidrulenoparen }[1]{}\) \(\newcommand {\cmidrule }[1][]{\ifnextchar (\LWRbooktabscmidruleparen \LWRbooktabscmidrulenoparen }\) \(\newcommand {\morecmidrules }{}\) \(\newcommand {\specialrule }[3]{\hline }\) \(\newcommand {\addlinespace }[1][]{}\) \(\def \LWRsiunitxrangephrase { \protect \mbox {to (numerical range)} }\) \(\def \LWRsiunitxdecimal {.}\)

14.2 Binomialfordelinger i Geogebra

Vi åbner Geogebra og åbner sandsynlighedslommeregneren:

(image)

Sandsynlighedslommeregneren kan også åbnes her:

(image)

Vi indstiller lommeregnerne på binomialfordeling:

(image)

Jeg har markeret de felter/knapper man kan manipulere. Det grå felt til højre (hvor der står \(0.7368\)) kan kun ændres i nogle bestemte situationer (afhænger af knapper til venstre).

(image)

Øvelse 14.2.1

  • a) Ved at prøve dig frem, skal du finde ud af, hvordan lommeregneren virker.

Løsning 14.2.1

  • a) Jeg kunne skrive en forklaring…men den ville være sværere at forstå end at prøve sig frem.

Øvelse 14.2.2

Lad \(X\sim b(12;0{,}3)\). Ved hjælp af sandsynlighedslommeregneren i Geogebra skal du bestemme følgende:

  • a) \(P(X=6)\)

  • b) \(P(X\leq 4)\)

  • c) \(P(X\geq 6)\)

  • d) \(P(3\leq X\leq 9)\) Hvad betyder dette i øvrigt?

  • e) Middelværdien

  • f) Standardafvigelsen

Løsning 14.2.2

  • a) \(P(X=6)=0{,}08\)

  • b) \(P(X\leq 4)=0{,}72\)

  • c) \(P(X\geq 6)=0{,}12\)

  • d) \(P(3\leq X\leq 9)=0{,}75\) og det betyder sandsynligheden for at få mellem 3 og 9 succeser.

  • e) Middelværdien \(E(X)=3{,}6\)

  • f) Standardafvigelsen \(SD(X)=1{,}59\)

Øvelse 14.2.3

Peter planter frø (nej ikke hamp din platugle) i en altankasse. Han planter 14 frø og ved, at der er \(80\%\) chance for at hver af dem spirer.

  • a) Hvad er chancen for at de alle spirer?

  • b) Hvad er risikoen for at højst 5 frø spirer?

  • c) Hvad er sandsynligheden for at mindst halvdelen spirer?

  • d) Hvor mange kan han forvente der spirer?

Løsning 14.2.3

  • a) Chancen for de alle spirer er \(4{,}4\%\).

  • b) Risikoen for at højst 5 frø spirer er \(0{,}04\%\).

  • c) Sandsynligheden for at mindst halvdelen spirer er \(99{,}76\%\)

  • d) Han kan forvente at se 11 smukke blomster (middelværdien). Peace.

Sandsynligheder der skal omskrives før de beregnes i Geogebra

Det er ikke altid man kan sætte sine tal direkte ind i Geogebra (eller formlen). Forstil dig f.eks. at du skal bestemme sandsynligheden for at slå mere end 3 6’ere i 10 forsøg. Dvs. \(X\sim b(10,\frac {1}{6})\) og vi skal bestemme \(P(X>3)\). I Geogebra kan man kun vælge ”\(\geq \)” og ikke ”\(>\)”. Det er dog ikke noget stort problem da det er nemt at se, \(P(X>3)\) selvfølgelig er det samme som \(P(X\geq 4)\) - altså at slå mere end tre 6’ere er det samme som at slå mindst fire 6’ere.

Øvelse 14.2.4

Lad \(X\sim b(30;0{,}1)\). Bestem

  • a) \(P(X\leq 3)\)

  • b) \(P(X<4)\)

  • c) \(P(X>2)\)

  • d) \(P(1<X\leq 5)\)

  • e) Middelværdi, standardafvigelse og varians.

Løsning 14.2.4

  • a) \(P(X\leq 3)=0{,}65\)

  • b) \(P(X<4)=0{,}65\)

  • c) \(P(X>2)=0{,}59\)

  • d) \(P(1<X\leq 5)=0{,}74\)

  • e) \(E(X)=3\), \(\Var (X)=2{,}70\) og \(SD(X)=1{,}64\)

Øvelse 14.2.5

En lærer på Niels Brock laver en multiple choice test inden karaktergivningen uuuuhuhuhhh. Der er 5 svarmuligheder til hvert spørgsmål og kun en af dem er rigtig. Der er 20 spørgsmål og for at bestå skal man have mere end halvdelen rigtig.

  • a) Gør rede for at situationen kan beskrives med en binomialfordeling, bestem \(X\), \(n\) og \(p\) og opskriv fordelingen på formen \(X\sim b(n,p)\).

  • b) Hvad er sandsynligheden for at bestå hvis man er blank på alle spørgsmålene (så man gætter)?

  • c) Hvor mange kan man forvente at få rigtig, hvis man er blank?

Løsning 14.2.5

  • a) \(X\) er antallet af rigtige svar, \(n=20\), \(p=0{,}2\) og \(X\sim b(20;0{,}2)\).

  • b) Sandsynligheden for at bestå er \(0{,}06\%\). Desværre.

  • c) Man kan forvente at gætte rigtigt på ca. 4 spørgsmål.