Write the formula for infinite geometric series.

The value of  is the first term of the series, which is .

The value of the common ratio, , is also .

The ratio is  because if we were to write out the first few terms in the series we would see,

each term is three fourths more than the previous term therefore, giving us the ratio.

Substitute the values into the equation and evaluate.

Write the infinite series formula.

Substitute the values of  and .

The first term of this sequence is 10. To find the common ratio r, we can just divide the second term by the first: . So "r" is -0.9. We can find the infinite sum using the formula where a is the first term and r is the common ratio: 

An infinite sum is only calculable if where r is the common ratio. We can find the common ratio easily by dividing the second term by the first: . This is greater than 1, so we can't find the infinite sum - it is infinite.

Write the formula to find the sum of an infinite geometric series.

The first term is: .

The common ratio is:  

Substitute the values into the formula.

Rewrite the complex fraction.

The sum will converge to .

Write the formula for the sum of an infinite series.

The value  is the first term, and  is the common ratio.

Divide the second term with the first term, third term and the second, and so forth, and we will get a common ratio of:

Substitute the values into the formula.

Rewrite the complex fraction using a division sign.

Change the division sign to a multiplication and take the reciprocal of the second term.

The series will converge to .

Write the formula for finding the sum of an infinite geometric series.

The first term  is ten.

Find the common ratio by dividing the second term with the first term, third term with the second term, or the fourth term with the third term, and so forth.  

The common ratio should all be the same after dividing each term.

As long as  is between negative one and one, we can use the formula to find the sum.  Substitute the givens into the equation and solve.

The answer is:  

Write the formula for an infinite series.

 The term  represents the first term.  The value of the common ratio  must be between negative one and positive one, and can be determined by dividing the second term with the first term, third term with the second term, and so forth.

We can see that the common ratio is:  

Substitute the known values into the formula.

The sum will converge to:  

Notice that this an infinite series.  

Find the common ratio by dividing the second term with the first term, third term with the second term, and so forth.  The common ratio should be same for each term divided.

The common ratio is:  

Write the formula for the sum of an infinite series.

The answer is:  

To find the sum, write the formula for infinite series.

Determine the common ratio  by dividing the second term with the first term, or third term with the second term.  They should have similar common ratios.

Simplify the complex fractions to verify that both have similar common ratios.

Substitute the known terms into the formula.

Simplify the complex fraction.

The sum will converge to .