Övningar 4.4
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| Versionen från 16 juli 2007 kl. 08.17 (redigera) KTH.SE:u1zpa8nw (Diskussion | bidrag) (Ny sida: __NOTOC__ ==Övning 4.4:1== <div class="ovning"> För vilka vinklar $\,v\,$, där $\,0 \leq v\leq 2\pi\,$, gäller att <table width="100%" cellspacing="10px"> <tr align="left"> <td clas...) ← Gå till föregående ändring |
Versionen från 16 juli 2007 kl. 11.44 (redigera) (ogör) KTH.SE:u1zpa8nw (Diskussion | bidrag) Gå till nästa ändring → |
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| Rad 1: | Rad 1: | ||
| __NOTOC__ | __NOTOC__ | ||
| - | ==Övning 4.4:1== | + | '''Övning 4.4:1''' |
| - | <div class="ovning"> | + | <div class="ovning" style="margin-top:-20px; margin-bottom:-5px;"> |
| För vilka vinklar $\,v\,$, där $\,0 \leq v\leq 2\pi\,$, gäller att | För vilka vinklar $\,v\,$, där $\,0 \leq v\leq 2\pi\,$, gäller att | ||
| - | <table width="100%" cellspacing="10px"> | + | <table width="100%"> |
| <tr align="left"> | <tr align="left"> | ||
| - | <td class="ntext">a)</td> | + | <td class="ntext">a) </td> |
| <td class="ntext" width="50%">$\sin{v}=\displaystyle \frac{1}{2}$</td> | <td class="ntext" width="50%">$\sin{v}=\displaystyle \frac{1}{2}$</td> | ||
| - | <td class="ntext">b)</td> | + | <td class="ntext">b) </td> |
| <td class="ntext" width="50%">$\cos{v}=\displaystyle \frac{1}{2}$</td> | <td class="ntext" width="50%">$\cos{v}=\displaystyle \frac{1}{2}$</td> | ||
| </tr> | </tr> | ||
| <tr align="left"> | <tr align="left"> | ||
| - | <td class="ntext">c)</td> | + | <td class="ntext">c) </td> |
| <td class="ntext" width="50%">$\sin{v}=1$</td> | <td class="ntext" width="50%">$\sin{v}=1$</td> | ||
| - | <td class="ntext">d)</td> | + | <td class="ntext">d) </td> |
| <td class="ntext" width="50%">$\tan{v}=1$</td> | <td class="ntext" width="50%">$\tan{v}=1$</td> | ||
| </tr> | </tr> | ||
| <tr align="left"> | <tr align="left"> | ||
| - | <td class="ntext">e)</td> | + | <td class="ntext">e) </td> |
| <td class="ntext" width="50%">$\cos{v}=2$</td> | <td class="ntext" width="50%">$\cos{v}=2$</td> | ||
| - | <td class="ntext">f)</td> | + | <td class="ntext">f) </td> |
| <td class="ntext" width="50%">$\sin{v}=-\displaystyle \frac{1}{2}$</td> | <td class="ntext" width="50%">$\sin{v}=-\displaystyle \frac{1}{2}$</td> | ||
| </tr> | </tr> | ||
| <tr align="left"> | <tr align="left"> | ||
| - | <td class="ntext">g)</td> | + | <td class="ntext">g) </td> |
| <td class="ntext" width="50%">$\tan{v}=-\displaystyle \frac{1}{\sqrt{3}}$</td> | <td class="ntext" width="50%">$\tan{v}=-\displaystyle \frac{1}{\sqrt{3}}$</td> | ||
| </tr> | </tr> | ||
| Rad 30: | Rad 30: | ||
| </div> | </div> | ||
| - | ==Övning 4.4:2== | + | '''Övning 4.4:2''' |
| - | <div class="ovning"> | + | <div class="ovning" style="margin-top:-20px; margin-bottom:-5px;"> |
| Lös ekvationen | Lös ekvationen | ||
| - | <table width="100%" cellspacing="10px"> | + | <table width="100%"> |
| <tr align="left"> | <tr align="left"> | ||
| - | <td class="ntext">a)</td> | + | <td class="ntext">a) </td> |
| <td class="ntext" width="33%">$\sin{x}=\displaystyle \frac{\sqrt{3}}{2}$</td> | <td class="ntext" width="33%">$\sin{x}=\displaystyle \frac{\sqrt{3}}{2}$</td> | ||
| - | <td class="ntext">b)</td> | + | <td class="ntext">b) </td> |
| <td class="ntext" width="33%">$\cos{x}=\displaystyle \frac{1}{2} $</td> | <td class="ntext" width="33%">$\cos{x}=\displaystyle \frac{1}{2} $</td> | ||
| - | <td class="ntext">c)</td> | + | <td class="ntext">c) </td> |
| <td class="ntext" width="33%">$\sin{x}=0$</td> | <td class="ntext" width="33%">$\sin{x}=0$</td> | ||
| </tr> | </tr> | ||
| <tr align="left"> | <tr align="left"> | ||
| - | <td class="ntext">d)</td> | + | <td class="ntext">d) </td> |
| <td class="ntext" width="33%">$\sin{5x}=\displaystyle \frac{1}{\sqrt{2}} $</td> | <td class="ntext" width="33%">$\sin{5x}=\displaystyle \frac{1}{\sqrt{2}} $</td> | ||
| - | <td class="ntext">e)</td> | + | <td class="ntext">e) </td> |
| <td class="ntext" width="33%">$\sin{5x}=\displaystyle \frac{1}{2}$</td> | <td class="ntext" width="33%">$\sin{5x}=\displaystyle \frac{1}{2}$</td> | ||
| - | <td class="ntext">f)</td> | + | <td class="ntext">f) </td> |
| <td class="ntext" width="33%">$\cos{3x}=-\displaystyle\frac{1}{\sqrt{2}}$</td> | <td class="ntext" width="33%">$\cos{3x}=-\displaystyle\frac{1}{\sqrt{2}}$</td> | ||
| </tr> | </tr> | ||
| Rad 54: | Rad 54: | ||
| </div> | </div> | ||
| - | ==Övning 4.4:3== | + | '''Övning 4.4:3''' |
| - | <div class="ovning"> | + | <div class="ovning" style="margin-top:-20px; margin-bottom:-5px;"> |
| Lös ekvationen | Lös ekvationen | ||
| - | <table width="100%" cellspacing="10px"> | + | <table width="100%"> |
| <tr align="left"> | <tr align="left"> | ||
| - | <td class="ntext">a)</td> | + | <td class="ntext">a) </td> |
| <td class="ntext" width="50%">$\cos{x}=\cos{\displaystyle \frac{\pi}{6}}$</td> | <td class="ntext" width="50%">$\cos{x}=\cos{\displaystyle \frac{\pi}{6}}$</td> | ||
| - | <td class="ntext">b)</td> | + | <td class="ntext">b) </td> |
| <td class="ntext" width="50%">$\sin{x}=\sin{\displaystyle \frac{\pi}{5}}$</td> | <td class="ntext" width="50%">$\sin{x}=\sin{\displaystyle \frac{\pi}{5}}$</td> | ||
| </tr> | </tr> | ||
| <tr align="left"> | <tr align="left"> | ||
| - | <td class="ntext">c)</td> | + | <td class="ntext">c) </td> |
| - | <td class="ntext" width="50%">$\sin{(x+40^\circ)}=\sin{65^\circ}$</td> | + | <td class="ntext" width="50%">$\sin{(x+40^\circ) }=\sin{65^\circ}$</td> |
| - | <td class="ntext">d)</td> | + | <td class="ntext">d) </td> |
| <td class="ntext" width="50%">$\sin{3x}=\sin{15^\circ}$</td> | <td class="ntext" width="50%">$\sin{3x}=\sin{15^\circ}$</td> | ||
| </tr> | </tr> | ||
| Rad 74: | Rad 74: | ||
| </div> | </div> | ||
| - | ==Övning 4.4:4== | + | '''Övning 4.4:4''' |
| - | <div class="ovning"> | + | <div class="ovning" style="margin-top:-20px; margin-bottom:-5px;"> |
| Bestäm de vinklar $\,v\,$ i intervallet $\,0^\circ \leq v \leq 360^\circ\,$ som uppfyller $\ \cos{\left(2v+10^\circ\right)}=\cos{110^\circ}\,$. | Bestäm de vinklar $\,v\,$ i intervallet $\,0^\circ \leq v \leq 360^\circ\,$ som uppfyller $\ \cos{\left(2v+10^\circ\right)}=\cos{110^\circ}\,$. | ||
| </div> | </div> | ||
| - | ==Övning 4.4:5== | + | '''Övning 4.4:5''' |
| - | <div class="ovning"> | + | <div class="ovning" style="margin-top:-20px; margin-bottom:-5px;"> |
| Lös ekvationen | Lös ekvationen | ||
| - | <table width="100%" cellspacing="10px"> | + | <table width="100%"> |
| <tr align="left"> | <tr align="left"> | ||
| - | <td class="ntext">a)</td> | + | <td class="ntext">a) </td> |
| <td class="ntext" width="50%">$\sin{3x}=\sin{x}$</td> | <td class="ntext" width="50%">$\sin{3x}=\sin{x}$</td> | ||
| - | <td class="ntext">b)</td> | + | <td class="ntext">b) </td> |
| <td class="ntext" width="50%">$\tan{x}=\tan{4x}$</td> | <td class="ntext" width="50%">$\tan{x}=\tan{4x}$</td> | ||
| </tr> | </tr> | ||
| <tr align="left"> | <tr align="left"> | ||
| - | <td class="ntext">c)</td> | + | <td class="ntext">c) </td> |
| <td class="ntext" width="50%">$\cos{5x}=\cos(x+\pi/5)$</td> | <td class="ntext" width="50%">$\cos{5x}=\cos(x+\pi/5)$</td> | ||
| </tr> | </tr> | ||
| Rad 97: | Rad 97: | ||
| </div> | </div> | ||
| - | ==Övning 4.4:6== | + | '''Övning 4.4:6''' |
| - | <div class="ovning"> | + | <div class="ovning" style="margin-top:-20px; margin-bottom:-5px;"> |
| Lös ekvationen | Lös ekvationen | ||
| - | <table width="100%" cellspacing="10px"> | + | <table width="100%"> |
| <tr align="left"> | <tr align="left"> | ||
| - | <td class="ntext">a)</td> | + | <td class="ntext">a) </td> |
| <td class="ntext" width="50%">$\sin x\cdot \cos 3x = 2\sin x$</td> | <td class="ntext" width="50%">$\sin x\cdot \cos 3x = 2\sin x$</td> | ||
| - | <td class="ntext">b)</td> | + | <td class="ntext">b) </td> |
| <td class="ntext" width="50%">$\sqrt{2}\sin{x}\cos{x}=\cos{x}$</td> | <td class="ntext" width="50%">$\sqrt{2}\sin{x}\cos{x}=\cos{x}$</td> | ||
| </tr> | </tr> | ||
| <tr align="left"> | <tr align="left"> | ||
| - | <td class="ntext">c)</td> | + | <td class="ntext">c) </td> |
| <td class="ntext" width="50%">$\sin 2x = -\sin x$</td> | <td class="ntext" width="50%">$\sin 2x = -\sin x$</td> | ||
| </tr> | </tr> | ||
| Rad 115: | Rad 115: | ||
| </div> | </div> | ||
| - | ==Övning 4.4:7== | + | '''Övning 4.4:7''' |
| - | <div class="ovning"> | + | <div class="ovning" style="margin-top:-20px; margin-bottom:-5px;"> |
| Lös ekvationen | Lös ekvationen | ||
| - | <table width="100%" cellspacing="10px"> | + | <table width="100%"> |
| <tr align="left"> | <tr align="left"> | ||
| - | <td class="ntext">a)</td> | + | <td class="ntext">a) </td> |
| <td class="ntext" width="50%">$2\sin^2{x}+\sin{x}=1$</td> | <td class="ntext" width="50%">$2\sin^2{x}+\sin{x}=1$</td> | ||
| - | <td class="ntext">b)</td> | + | <td class="ntext">b) </td> |
| <td class="ntext" width="50%">$2\sin^2{x}-3\cos{x}=0$</td> | <td class="ntext" width="50%">$2\sin^2{x}-3\cos{x}=0$</td> | ||
| </tr> | </tr> | ||
| <tr align="left"> | <tr align="left"> | ||
| - | <td class="ntext">c)</td> | + | <td class="ntext">c) </td> |
| <td class="ntext" width="50%">$\cos{3x}=\sin{4x}$</td> | <td class="ntext" width="50%">$\cos{3x}=\sin{4x}$</td> | ||
| </tr> | </tr> | ||
| Rad 133: | Rad 133: | ||
| </div> | </div> | ||
| - | ==Övning 4.4:8== | + | '''Övning 4.4:8''' |
| - | <div class="ovning"> | + | <div class="ovning" style="margin-top:-20px; margin-bottom:-5px;"> |
| Lös ekvationen | Lös ekvationen | ||
| - | <table width="100%" cellspacing="10px"> | + | <table width="100%"> |
| <tr align="left"> | <tr align="left"> | ||
| - | <td class="ntext">a)</td> | + | <td class="ntext">a) </td> |
| <td class="ntext" width="50%">$\sin{2x}=\sqrt{2}\cos{x}$</td> | <td class="ntext" width="50%">$\sin{2x}=\sqrt{2}\cos{x}$</td> | ||
| - | <td class="ntext">b)</td> | + | <td class="ntext">b) </td> |
| <td class="ntext" width="50%">$\sin{x}=\sqrt{3}\cos{x}$</td> | <td class="ntext" width="50%">$\sin{x}=\sqrt{3}\cos{x}$</td> | ||
| </tr> | </tr> | ||
| <tr align="left"> | <tr align="left"> | ||
| - | <td class="ntext">c)</td> | + | <td class="ntext">c) </td> |
| <td class="ntext" width="50%">$\displaystyle \frac{1}{\cos^2{x}}=1-\tan{x}$</td> | <td class="ntext" width="50%">$\displaystyle \frac{1}{\cos^2{x}}=1-\tan{x}$</td> | ||
| </tr> | </tr> | ||
Versionen från 16 juli 2007 kl. 11.44
Övning 4.4:1
För vilka vinklar $\,v\,$, där $\,0 \leq v\leq 2\pi\,$, gäller att
| a) | $\sin{v}=\displaystyle \frac{1}{2}$ | b) | $\cos{v}=\displaystyle \frac{1}{2}$ |
| c) | $\sin{v}=1$ | d) | $\tan{v}=1$ |
| e) | $\cos{v}=2$ | f) | $\sin{v}=-\displaystyle \frac{1}{2}$ |
| g) | $\tan{v}=-\displaystyle \frac{1}{\sqrt{3}}$ | ||
Övning 4.4:2
Lös ekvationen
| a) | $\sin{x}=\displaystyle \frac{\sqrt{3}}{2}$ | b) | $\cos{x}=\displaystyle \frac{1}{2} $ | c) | $\sin{x}=0$ |
| d) | $\sin{5x}=\displaystyle \frac{1}{\sqrt{2}} $ | e) | $\sin{5x}=\displaystyle \frac{1}{2}$ | f) | $\cos{3x}=-\displaystyle\frac{1}{\sqrt{2}}$ |
Övning 4.4:3
Lös ekvationen
| a) | $\cos{x}=\cos{\displaystyle \frac{\pi}{6}}$ | b) | $\sin{x}=\sin{\displaystyle \frac{\pi}{5}}$ |
| c) | $\sin{(x+40^\circ) }=\sin{65^\circ}$ | d) | $\sin{3x}=\sin{15^\circ}$ |
Övning 4.4:4
Bestäm de vinklar $\,v\,$ i intervallet $\,0^\circ \leq v \leq 360^\circ\,$ som uppfyller $\ \cos{\left(2v+10^\circ\right)}=\cos{110^\circ}\,$.
Övning 4.4:5
Lös ekvationen
| a) | $\sin{3x}=\sin{x}$ | b) | $\tan{x}=\tan{4x}$ |
| c) | $\cos{5x}=\cos(x+\pi/5)$ | ||
Övning 4.4:6
Lös ekvationen
| a) | $\sin x\cdot \cos 3x = 2\sin x$ | b) | $\sqrt{2}\sin{x}\cos{x}=\cos{x}$ |
| c) | $\sin 2x = -\sin x$ | ||
Övning 4.4:7
Lös ekvationen
| a) | $2\sin^2{x}+\sin{x}=1$ | b) | $2\sin^2{x}-3\cos{x}=0$ |
| c) | $\cos{3x}=\sin{4x}$ | ||
Övning 4.4:8
Lös ekvationen
| a) | $\sin{2x}=\sqrt{2}\cos{x}$ | b) | $\sin{x}=\sqrt{3}\cos{x}$ |
| c) | $\displaystyle \frac{1}{\cos^2{x}}=1-\tan{x}$ | ||
