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Solve for [tex]x[/tex].

[tex]\[ 3x = 6x - 2 \][/tex]




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[tex]\[ \tan 2x = \][/tex]

A. [tex]\[ \frac{\tan x}{1-\tan^2 x} \][/tex]

B. [tex]\[ \frac{2 \tan x}{1-\tan^2 x} \][/tex]

C. [tex]\[ \frac{\tan x}{1+\tan^2 x} \][/tex]

D. [tex]\[ \frac{2 \tan x}{1+\tan^2 x} \][/tex]

Sagot :

GinnyAnsweridn
To determine the correct expression for [tex]\(\tan(2x)\)[/tex], we need to use a well-known trigonometric identity for the tangent of a double angle. The double angle identity for tangent is derived from the sum formula for tangent, [tex]\(\tan(a + b)\)[/tex].

The identity states:
[tex]\[ \tan(2x) = \frac{2 \tan(x)}{1 - \tan^2(x)} \][/tex]

Let’s carefully verify the options provided:
- Option A: [tex]\(\frac{\tan(x)}{1 - \tan^2(x)}\)[/tex]
- Option B: [tex]\(\frac{2 \tan(x)}{1 - \tan^2(x)}\)[/tex]
- Option C: [tex]\(\frac{\tan(x)}{1 + \tan^2(x)}\)[/tex]
- Option D: [tex]\(\frac{2 \tan(x)}{1 + \tan^2(x)}\)[/tex]

According to the correct double angle formula for tangent mentioned above:
[tex]\[ \tan(2x) = \frac{2 \tan(x)}{1 - \tan^2(x)} \][/tex]

We can see that Option B matches the correct identity:
[tex]\[ \frac{2 \tan(x)}{1 - \tan^2(x)} \][/tex]

Thus, the correct answer is:
B. [tex]\(\frac{2 \tan x}{1-\tan^2 x}\)[/tex]
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