The first thing we're going to do is to write the whole problem out so we know what we're dealing with:

The next thing is to move the  in front of the second term to the exponent of the term inside the log function:

Because we're subtracting the logs, we need to divide the terms inside of them:

Now we can cancel one of the  terms, leaving us with a final answer of:

First, we start with:

That doesn't specifically help us, but we can rewrite it in the form of:

From here, we can split it into two separate logarithms:

We know the values for these terms, so we can substitute them in and solve now:

When you add logarithms of the same base, you multiply the terms inside the log functions.  With this problem, you would end up with:

To multiply these terms together, you multiply the constants out in front like normal, and you add the exponents:

Now we need to remember to put this term back in the logarithm to get our final answer:

When simplifying logarithmic expressions it is important to recall the rules of logs.

When two logs of the same base are added together that is the same as multiplying the inside contents.

When two logs of the same base are being subtracted that is the same as dividing the inside contents.

When there is a coefficient on a log that is the same as raising the log to that power.

Applying the rule above to the particular expression in question results in the following.

Use the log rules to simplify this expression.

Evaluate the first two terms.

Evaluate   and combine this into one log.

The answer is:  

Write the product property of logs.

Use this formula to simplify the expression.  Since the logs share the same base, we can multiply all the integers together to combine as a single log.

The answer is:  

This question will require the product and quotient properties.

Product:  

Quotient:  

Evaluate the first two terms according to the formula.

Add using the product property: 

The answer is:  

Evaluate the first term.  It can be rewritten by moving the coefficient as a power of the integer inside the log.

According to the product property of logs, when logs are added, the values inside the log can be multiplied together so that the log can be combined as one unit.

Subtract this log with .

According to the division property of logs, when two log values are subtracted, we can combine the logs and divide the numbers.

The answer is:  

The log has a default base of 10.  Recall that if:

Evaluate each term.

 since .

 since .

Add the terms to simplify.

The answer is:  

According to log properties, when there is a coefficient in front of a log, the coefficient can be transferred as the exponent of the inner value of log.

Convert the expression.

Simplify the terms.

When the logs of a same base are added, we can multiply the inner terms together to combine the log as one whole.

The answer is: