I believe the answer is C. At most means x less or equal 12
3x - 10 = x + 4 <== ur equation
three times a number.....3x...with the x representing the number
ten less....3x - 10
is the same as...means =
that number (x) increased by 4....x + 4
so we have 3x - 10 = x + 4...
3x - 10 = x + 4
3x - x = 4 + 10
2x = 14
x = 14/2
x = 7....and that number is 7
Answer:
The statement "There is an integer that is divisible by 6 and is also divisible by 8, but is not divisible by 48." is true.
Step-by-step explanation:
Consider the provided information.
We need to prove that there exist an integer that is divisible by 6 and is also divisible by 8, but is not divisible by 48 with the help of an example.
The prime factors of the number 6 is:
6 = 2 × 3
The prime factors of the number 8 is:
8 = 2 × 2 × 2
Now the Least Common Multiple of the number 6 and 8 is:
2 × 2 × 2 × 3 = 24
Since, it is clear that the number 24 is divisible by 6 and 8 but the number is not divisible by 48.
There exist infinite numbers which can be divisible by 6 and 8 but not divisible by 48.
All the odd multiples of 24 are divisible by 6 and 8 but all the odd multiples of 24 are not divisible by 48.
For example:
24 × 3 = 72 (The number is divisible by 6 and 8 but not divisible by 48.)
24 × 5 = 120 (The number is divisible by 6 and 8 but not divisible by 48.)
Hence, the statement "There is an integer that is divisible by 6 and is also divisible by 8, but is not divisible by 48." is true.
Answer:
78 cents
Step-by-step explanation:
96/16 = 6/1
6/1 is the unit rate so you input 13 into the bottom and multiply
13×6=78
Answer:y=7
Step-by-step explanation: