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Find the value of xxx if A=9x+14A=9x+14A=9x+14 and B=1xB=1xB=1x .
Find the value of xxx if A=9x+14A=9x+14A=9x+14 and B=1xB=1xB=1x .
Answers
Answer
what's x?
Answer
overall is 90
Answered by
GPT-4o mini
To find the value of \( x \), we start with the given equations:
1. \( A = 9x + 14 \)
2. \( B = 1x \)
Since \( B \) is defined as \( 1x \), we can simply write \( B = x \).
We now need to find a relationship between \( A \) and \( B \). Since we don't have further information, let's assume that they are equal (i.e., \( A = B \)), which is a typical case in such problems.
Setting \( A \) equal to \( B \):
\[
9x + 14 = x
\]
Now, we will solve for \( x \).
1. Subtract \( x \) from both sides:
\[
9x - x + 14 = 0
\]
2. This simplifies to:
\[
8x + 14 = 0
\]
3. Next, we subtract 14 from both sides:
\[
8x = -14
\]
4. Divide both sides by 8:
\[
x = -\frac{14}{8} = -\frac{7}{4}
\]
Thus, the value of \( x \) is
\[
\boxed{-\frac{7}{4}}.
\]
1. \( A = 9x + 14 \)
2. \( B = 1x \)
Since \( B \) is defined as \( 1x \), we can simply write \( B = x \).
We now need to find a relationship between \( A \) and \( B \). Since we don't have further information, let's assume that they are equal (i.e., \( A = B \)), which is a typical case in such problems.
Setting \( A \) equal to \( B \):
\[
9x + 14 = x
\]
Now, we will solve for \( x \).
1. Subtract \( x \) from both sides:
\[
9x - x + 14 = 0
\]
2. This simplifies to:
\[
8x + 14 = 0
\]
3. Next, we subtract 14 from both sides:
\[
8x = -14
\]
4. Divide both sides by 8:
\[
x = -\frac{14}{8} = -\frac{7}{4}
\]
Thus, the value of \( x \) is
\[
\boxed{-\frac{7}{4}}.
\]
Answered by
GPT-4o mini
To find the value of \( x \), we start from the equations you provided:
1. \( A = 9x + 14 \)
2. \( B = 1x \), which simplifies to \( B = x \)
Assuming \( A \) and \( B \) are equal (a common scenario in such problems), we set the equations equal to each other:
\[
9x + 14 = x
\]
Now, let's solve for \( x \):
1. Subtract \( x \) from both sides:
\[
9x - x + 14 = 0
\]
This simplifies to:
\[
8x + 14 = 0
\]
2. Now subtract 14 from both sides:
\[
8x = -14
\]
3. Finally, divide both sides by 8:
\[
x = -\frac{14}{8} = -\frac{7}{4}
\]
So, the value of \( x \) is
\[
\boxed{-\frac{7}{4}}.
\]
1. \( A = 9x + 14 \)
2. \( B = 1x \), which simplifies to \( B = x \)
Assuming \( A \) and \( B \) are equal (a common scenario in such problems), we set the equations equal to each other:
\[
9x + 14 = x
\]
Now, let's solve for \( x \):
1. Subtract \( x \) from both sides:
\[
9x - x + 14 = 0
\]
This simplifies to:
\[
8x + 14 = 0
\]
2. Now subtract 14 from both sides:
\[
8x = -14
\]
3. Finally, divide both sides by 8:
\[
x = -\frac{14}{8} = -\frac{7}{4}
\]
So, the value of \( x \) is
\[
\boxed{-\frac{7}{4}}.
\]
Answered by
GPT-4o mini
From your comment "overall is 90," it seems that you're possibly indicating that \( A + B = 90 \) or that \( A = 90 \) or something similar. Let's explore that scenario:
### Assuming \( A + B = 90 \)
Using the original expressions for \( A \) and \( B \):
1. \( A = 9x + 14 \)
2. \( B = x \)
Setting up the equation:
\[
(9x + 14) + x = 90
\]
This simplifies to:
\[
10x + 14 = 90
\]
Now, solving for \( x \):
1. Subtract 14 from both sides:
\[
10x = 90 - 14
\]
\[
10x = 76
\]
2. Divide both sides by 10:
\[
x = \frac{76}{10} = \frac{38}{5} = 7.6
\]
So, if \( A + B = 90 \), the value of \( x \) would be
\[
\boxed{7.6}.
\]
### Assuming \( A = 90 \)
If we assume instead that \( A = 90 \):
Using \( A = 9x + 14 \):
\[
9x + 14 = 90
\]
Now, solving for \( x \):
1. Subtract 14 from both sides:
\[
9x = 90 - 14
\]
\[
9x = 76
\]
2. Divide by 9:
\[
x = \frac{76}{9} \approx 8.444
\]
So, if \( A = 90 \), the value of \( x \) would be approximately
\[
\boxed{\frac{76}{9}} \text{ or } 8.444.
\]
Please clarify if you meant something different by "overall is 90," and I'll be glad to assist further!
### Assuming \( A + B = 90 \)
Using the original expressions for \( A \) and \( B \):
1. \( A = 9x + 14 \)
2. \( B = x \)
Setting up the equation:
\[
(9x + 14) + x = 90
\]
This simplifies to:
\[
10x + 14 = 90
\]
Now, solving for \( x \):
1. Subtract 14 from both sides:
\[
10x = 90 - 14
\]
\[
10x = 76
\]
2. Divide both sides by 10:
\[
x = \frac{76}{10} = \frac{38}{5} = 7.6
\]
So, if \( A + B = 90 \), the value of \( x \) would be
\[
\boxed{7.6}.
\]
### Assuming \( A = 90 \)
If we assume instead that \( A = 90 \):
Using \( A = 9x + 14 \):
\[
9x + 14 = 90
\]
Now, solving for \( x \):
1. Subtract 14 from both sides:
\[
9x = 90 - 14
\]
\[
9x = 76
\]
2. Divide by 9:
\[
x = \frac{76}{9} \approx 8.444
\]
So, if \( A = 90 \), the value of \( x \) would be approximately
\[
\boxed{\frac{76}{9}} \text{ or } 8.444.
\]
Please clarify if you meant something different by "overall is 90," and I'll be glad to assist further!
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