<h3>
Answer:</h3><h2>
324.</h2><h3>
Step-by-step explanation:</h3>
To find 24% of 1,350, you must multiply 24% by 1,350.
To do this problem, we must turn the numbers to fractions.
Twenty-Four hundredths, 24 / 100 is your fraction for 24%.
Put 1,350 over 1 since 1,350 is a whole number.
So:
24 / 100 x 1,350 / 1.
1350 x 24 = 32400, 100 x 1 = 100.
Your answer is 32,400 / 100.
Get rid of the 2 zeroes in 400 and 100.
It should be 324 / 1.
Since 1 is just the number 1, the answer is 324.
If you have any questions, feel free to comment below.
Merry Christmas!
Let 'c' represent the number of pictures Chelsea took.
Let 's' represent the number of pictures Sonya took.
For last year's Thanksgiving, c + s = 236
For this year's Thanksgiving, let 'x' represent the number of photos taken in total. x = c + s, where c and s are two integers that are the same (c = s).
And we know that for both years, c + s + x = 500.
As we know that c + s is already 236 from last year, we can remove c + s from the equation in bold and replace it with 236 instead.
236 + x = 500.
Now we have to isolate the x term.
x = 500 - 236
x = 264.
We know that x = c + s, where c and s are the same, so we can just use one of the variables and double it (so you either get 2c or 2s - it doesn't matter which one you pick because they're both the same).
2c = 264
c = 132
c = s
s = 132.
Both took 132 pictures this year.
Answer:
Step-by-step explanation:
Given the function
We can find the inverse function by exchanging x and y, and then solve for y.
Replace x with y.
square both sides
Hence,
Answer:
32/225 ≈ 0.1422
Step-by-step explanation:
If you consider "3-digit" numbers to be between 100 and 999, inclusive, there are 128 such numbers divisible by 7. The probability of choosing one at random is ...
128/900 = 32/225 = 0.1422...(repeating)
__
If you consider all non-negative integers less than 1000 to be "3-digit numbers," then the probability is ...
142/1000 = 0.142 (exactly)
