Zie de uitleg. Probeer dit wel eerst zelf op te lossen!
`4*log(x) = 1 - log(x)` geeft `5*log(x)=1` en `log(x)=0,2` zodat `x=10^(0,2)~~1,58` .
Grafiek: `x gt 1,58` .
`\ ^2log(x) - 1 = 2* \ ^2log(x)` geeft `\ ^2log(x)=text(-)1` zodat `x=2^(text(-)1)=0,5` .
Grafiek: `0 lt x lt 0,5` .
`text(D)_(f)=langle 1, →rangle` en `text(B)_(f)=ℝ`
De verticale asymptoot is `x=1` .
Los eerst `3 *\ ^2log(x-1)+16 = 38` op:
`3 *\ ^2log(x-1)+16` |
`=` |
`38` |
|
`\ ^2log(x-1)` |
`=` |
`22/3` |
|
`x-1` |
`=` |
`2^ (22 /3) ≈ 161,27` |
|
`x` |
`~~` |
`162,27` |
Grafiek: `1 lt x lt 162,27`
`1 +4 *\ ^(0,5)log(x+5 )=text(-)3`
`\ ^(0,5)log(x+5 )` | `=` | `text(-)1` | |
`x+5` | `=` | `(1/2) ^(text(-)1)` | |
`x+5` | `=` | `2` | |
`x` | `=` | `text(-)3` |
`text(D)_(f)=langletext(-)5 ,→rangle` en `text(B)_(f)=ℝ`
De verticale asymptoot is `x=text(-)5` .
`f(x)=text(-)3` voor `x=text(-)3`
Voer in: `y_1=1+4*\ ^(0,5)log(x+5)` en `y_2=text(-)3`
Venster bijvoorbeeld: `[text(-)5, 5]xx[text(-)5, 5]`
Bekijk de grafiek. De uitkomst is: `text(-)5 < x≤text(-)3`
De verticale asymptoot van de grafiek van `f` is `x=0` .
De verticale asymptoot van de grafiek van `g` is `x=2` .
`text(D)_(f)=langle 0, →rangle` en `text(D)_(g)=langle ←, 2 rangle`
`x=2-x` geeft `x=1` .
`1 < x<2`
`\ ^6log(x)+\ ^6log(x-1)` | `=` | `1` | |
`\ ^6log(x(x-1))` | `=` | `1` | |
`(x-3)(x+2)` | `=` | `0` | |
`x` | `=` | `text(-)2 vv x=3` |
Alleen `x=3` voldoet.
`log( (2 x) / (x-1) )` | `=` | `2` | |
`(2 x) / (x-1)` | `=` | `10^2` | |
`(2x)/(x-1)` | `=` | `100` | |
`2 x` | `=` | `100 x-100` | |
`x` | `=` | `100/98=50/49` |
`\ ^3log(x-2)` | `=` | `1 +5 *\ ^3log(2)` | |
`\ ^3log(x-2)` | `=` | `\ ^3log(3)+\ ^3log(2^5)` | |
`\ ^3log(x-2)` | `=` | `\ ^3log(3)+\ ^3log(32)` | |
`\ ^3log(x-2)` | `=` | `\ ^3log(96)` | |
`x-2` | `=` | `96` | |
`x` | `=` | `98` |
Kijk als je herleiding klaar is of je hetzelfde hebt gedaan als in het voorbeeld en of je dezelfde uitkomst hebt.
`p~~0,00002 *1,12^20 ~~ 19*10^(text(-)3)` Pa.
`L=20 *log((0,001)/ (0,00002) ) ~~ 34` dB.
`h = text(-)19log(p) + 57` geeft `log(p) = (h-57)/(text(-)19) ~~ text(-)0,0526h + 3` .
En dit betekent `p ~~ 10^(text(-)0,0526h + 3) = 10^3 * 10^(text(-)0,0526h) = 1000 * 0,886^h` .
`p ~~ 1000 * 10^(text(-)0,0526h)` .
`x=text(-)4`
`text(D)_(f)=langle text(-)4, →rangle`
`text(B)_(f)=ℝ`
`1 -3 *log(x+4 )` | `=` | `0` | |
`3*log(x+4)` | `=` | `1` | |
`log(x+4)` | `=` | `1/3` | |
`x+4` | `=` | `10^(1/3) ~~ 2,15` | |
`x` | `~~` | `text(-)1,85` |
Houd rekening met het domein. De oplossing van de ongelijkheid is `text(-)4 < x<text(-)1,85` .
`\ ^5log(x)` |
`=` |
`3 +4 *\ ^5log(x)` |
|
`text(-)3*\ ^5log(x)` |
`=` |
`3` |
|
`\ ^5log(x)` |
`=` |
`text(-)1` |
|
`x` |
`=` |
`5^(text(-)1) = 0,2` |
`m = 2/3 log(E/2) - 3` geeft `log(E/2) = 3/2*(m+3) = 1,5m + 4,5` , zodat `E = 2*10^(1,5m + 4,5) = 2*10^(4,5)*10^(1,5m) ~~ 63245*10^(1,5m)` .
`E ~~ 63245*10^(1,5*5,2) ~~ 4,0*10^12` .
Dus ongeveer `4,0` TJ (TeraJoule).
`text(D)_(f)=langle 0, →rangle`
`text(B)_(f)=ℝ`
De verticale asymptoot van `f` is `x=0` .
`text(D)_(g)=langle←, 4 rangle`
`text(B)_(g)=ℝ`
De verticale asymptoot van `g` is `x=4` .
`log(x)` | `=` | `text(-)1 + log(4-x)` | |
`log(x) - log(4-x)` | `=` | `text(-)1` | |
`log(x/(4-x))` | `=` | `text(-)1` | |
`x/(4-x)` | `=` | `10^(text(-)1) = 0,1` | |
`x` | `=` | `0,4-0,1x` | |
`1,1x` | `=` | `0,4` | |
`x` | `=` | `(0,4)/(1,1) = 4/11` |
`0 < x≤4/11`
`4/11 < x < 4`
`D ~~ 5,62* 10^(0,25k) - 10`
`log(10 A)=log(10 )+log(A)=1 +log(A)`
`10^(3,3)≈1995`
Vergelijkbaar bewijs als in opgave A1a.
`D=152,7^@` , dus `16967` km.
`8,8=log(A/T)+1,66 *log(D)+3,30` geeft `log(A/T) + log(D^(1,66))=5,5` en dus `log(A/T * D^(1,66)) = 5,5` .
Dit betekent: `A/T * D^(1,66) = 10^(5,5)` en `D^(1,66) = 10^(5,5)*T/A` zodat `D ~~ (316227,766*T/A)^(1/(1,66))` .
Dit kun je schrijven als `D = 2057,09 * (T/A)^(0,60)` .
`p≈2057,09` en `q≈0,60` .
`x~~5,06` .
`x~~17,78` .
`x=sqrt(1/2)~~0,71`
`text(D)_(f)=langle 0 ,→rangle` en `text(B)_(f)=ℝ` .
Verticale asymptoot van `f` : `x=0` .
`text(D)_(g)=langle←,6 rangle` en `text(B)_(g)=ℝ` .
Verticale asymptoot van `g` : `x=6` .
`x=1/18` .
`x>9841,5`
`x=5` .
`x=2`
`2 ≤x < 6`
`G = 2,4*10^(0,008L)`
`G≈26,3` kg.