Twelve hundred-thousandths is<u> </u><u>ten thousandth greater </u><u> </u> than twenty millionths
Step-by-step explanation:
We subtract the two fractions;
twelve hundred-thousandths – 12/100,000
twenty millionths – 20/1,000,000
We begin by finding the LCM of 100,000 & 1,000,000 which is 1,000,000. Then;
12/100,000 – 20 / 1,000,000 = (120 - 20)1,000,000
= 100/1,000,000
= 1/10,000
Answer:
140
Step-by-step explanation:
The arithmetic series is 5, 7, 9, 11, ........., 23.
First u have to determine the no. of terms that can be done by using
Tₙ = [a + (n - 1)d]
Tₙ-------nth term
a---------first term
n---------no.of terms in the series
d---------common difference
here a = 5,d = 2.
let it contain n terms Tₙ= [a + (n-1)d]
Substitute Tₙ, a, and d in the equation
23 = 5 + (n - 1)2
Subtract 5 from each side.
18 = (n-1)2
Divide each side by 2
(n - 1) = 9
Add 1 to each side
n = 9 + 1 = 10
The sum of the arithmetic sequence formula: Sₙ= (n/2)[2a+(n-1)d]
Substitute Sₙ, a, n and d in the equation
Sₙ= (10/2)[2(5) + (10-1)2]
Sₙ= (5)[10 + (9)2]
Sₙ= 5[10 + 18]
Sₙ= 5[28] = 140
Therefore the sum of the arithmetic sequence is 140.
It’s c I think sorry if I’m wrong, I did this lesson long time ago
Answer:
It will be 16 feet by the bottom of the building
Step-by-step explanation: