Explanation:

The first thing we notice about this problem is thatis an exponent. This should be an immediate reminder: use logs!

The question is, which base should we choose for the log? We should use the natural log (log base e) because the right-hand side of the equation already has e as a base of an exponent. As you will see, things cancel out more nicely this way.

Take the natural log of both sides:

Rewrite the right-hand side of the equation using the product rule for logs:

Now rewrite the whole equation after bringing down those exponents.

is the same thing as, which equals 1.

Now we just divide byon both sides to isolate.

Explanation:

The original equation is:

Subtractfrom both sides:

Divde both sides by:

Take the natural logarithm of both sides:

Divde both sides byand use a calculator to get:

Explanation:

Give both sides the same base, usinge:

.

Becauseeandlncancel each other out,.

Solve for x and round to the nearest tenth:

Explanation:

To solve this exponential function, you must first "undo" the e by taking the natural log of both sides. Thus,

Then, to isolate x, you must subtract two from both sides. Thus,

Explanation:

To solve, you must isolate x. The first two steps are to divide both sides by 2 and then take the natural log of both sides.

Finally, you must divide both sides by 4.

Explanation:

Case 1,

This is true for all real values of, therefore,

Case 2

Take the natural logarithm of both sides (note that we could use any logarithm but it's convenient to just choose the natural logarithm).

Use the rule for pulling out exponents.

Note that if you were to divide out by, you would obtainwhich would implywhich is not true for this case. We are solving for.

Expand with the distributive property,

Collect and isolate terms withonto one side of the equation,

Factor out(you could just factor outand leave thein front of the logarithms but it's easier to see the solution writing it this way).

What's remarkable about this solution is that it was obtained without specifying any value foror. The solution is true so as long as.

Explanation:

Solve for,

Note the rules for logarithms,

(1)

(2)

(3)

There is more than one way to get started, but notice that if we divide out bywe can proceed as follows,

Take the natural log of both sides,

Use rule (3) to pull out the exponents,

Expand with the distributive property,

Collect terms withon onside and then factor out.

Divide out to solve for,

(4)

The numerator can be simplified using rules (2) and (3). Use rule (3) on theterm in the numerator as follows,

So now the numerator can be written,

Bringing back the denominator in equation (4) gives,

Explanation:

To solve, use the one-to-one property of exponential equations.

Explanation:

For this problem, we can use the fact that the exponent and logarithm are inverses of each other. So if we raise both sides up as exponents:

The left side of the equation cancels and we get that

Explanation:

To more easily solve for x, we need to try to express the right hand side of the equation in terms of a number of base 4. 256 is simply.

Rewriting the equation with this discovery yields

Since both bases are the same, we can set the exponents equal to each other and solve for x.