In order to solve this problem we need to follow the correct order of operations. Order of operations are outlined by the acronym PEMDAS: parenthesis, exponents, multiplication, division, addition, and subtraction. These operations should be performed in this order from the left to the right. 

Let's start by solving the innermost parenthesis remember to work on exponents first.

Simplify.

An expression with a radical expression in the denominator is not simplified, so to simplify, it is necessary to rationalize the denominator. This is accomplished by multiplying both numerator and denominator by the given square root, , as follows:

 can be simplified by taking the prime factorization of 12, and taking advantage of the Product of Radicals Property.

, so

Returning to the original expression and substituting:

,

the correct response.

When simplifying an fraction with a denominator which is the product of an integer and a square root expression, it is necessary to first rationalize the denominator. This is accomplished by multiplying both halves of the fraction by the square root expression. The correct response is therefore .

The two expressions comprise the sum and the difference of the same two expressions, and can be multiplied using the difference of squares formula:

The second expression can be rewritten by the Power of a Product Property:

The square of the square root of an expression is the expression itself:

By order of operations, multiply, then subtract:

The two expressions comprise the sum and the difference of the same two expressions, and can be multiplied using the difference of squares formula:

The square of the square root of an expression is the expression itself:

By distribution:

The two expressions comprise the sum and the difference of the same two expressions, and can be multiplied using the difference of squares formula:

The square of the square root of an expression is the expression itself, so:

An expression with a radical expression in the denominator is not simplified, so to simplify, it is necessary to rationalize the denominator. This is accomplished by multiplying both numerator and denominator by the given square root, , as follows:

The expression can be simplified further by dividing the numbers outside the radical by greatest common factor 5:

This is the correct response.

To simplify a radical expression, first find the prime factorization of the radicand, which is 66 here.

There are no repeated prime factors, so the expression is already in simplified form. 

To simplify a radical expression, first find the prime factorization of the radicand. First, we will simplify  as follows:

Pair up like factors, then apply the Product of Radicals Property.

By similar reasoning,

11 is a prime number, so  cannot be simplified. We can replace it with .

Through substitution, and the distribution property:

To simplify a radical expression, first find the prime factorization of the radicand, which is 32 here.

Pair up like factors, then apply the Product of Radicals Property:

,

the simplest form of the radical.