Simple. First multiply the dimensions by 12 to get <u>one</u> foot
3x12=36 5.5x12=66
Then multiply <u>that</u> by 10 to get <u>10 feet</u>
36x10=360 66x10=660
Finally add it all up
360+660= 237600
This should do :) Hope I help
Factor the following:
12 x^4 - 42 x^3 - 90 x^2
Factor 6 x^2 out of 12 x^4 - 42 x^3 - 90 x^2:
6 x^2 (2 x^2 - 7 x - 15)
Factor the quadratic 2 x^2 - 7 x - 15. The coefficient of x^2 is 2 and the constant term is -15. The product of 2 and -15 is -30. The factors of -30 which sum to -7 are 3 and -10. So 2 x^2 - 7 x - 15 = 2 x^2 - 10 x + 3 x - 15 = x (2 x + 3) - 5 (2 x + 3):
6 x^2 x (2 x + 3) - 5 (2 x + 3)
Factor 2 x + 3 from x (2 x + 3) - 5 (2 x + 3):
Answer: 6 x^2 (2 x + 3) (x - 5)
Let
n-------> the lesser even number
n+2----> the greater even number
we know that
Solve for n
Combine like terms
so
therefore
<u>the answer is</u>
the lesser even number is
the greater even number is
Answer:
<h2>6.5</h2>
Step-by-step explanation:
Given the sum of the series represented as . <u>To get the sum to infinity of the geometric series, we need to get its first term and its common ratio</u>. comparing to the general term of the sum of series of a GP
a = first term of the series
r = common ratio
On comparing to the given series, a = 1.3 and r = 0.8
Sum to infinity of a Geometric series is expressed as:
The answer would be No solution