Asked by jucewrldfr
To find the value of \( k \) in the equation \( 7 + 2k^2 = 25 \), we can follow these steps:
1. Start with the equation:
\[
7 + 2k^2 = 25
\]
2. Subtract 7 from both sides:
\[
2k^2 = 25 - 7
\]
\[
2k^2 = 18
\]
3. Divide both sides by 2:
\[
k^2 = \frac{18}{2}
\]
\[
k^2 = 9
\]
4. Take the square root of both sides:
\[
k = \pm 3
\]
Thus, the solution set for \( k \) is:
\[
k = 3 \quad \text{or} \quad k = -3
\]
So the solution set is \( \{ 3, -3 \} \).
make this like a 6th grader wrote it
1. Start with the equation:
\[
7 + 2k^2 = 25
\]
2. Subtract 7 from both sides:
\[
2k^2 = 25 - 7
\]
\[
2k^2 = 18
\]
3. Divide both sides by 2:
\[
k^2 = \frac{18}{2}
\]
\[
k^2 = 9
\]
4. Take the square root of both sides:
\[
k = \pm 3
\]
Thus, the solution set for \( k \) is:
\[
k = 3 \quad \text{or} \quad k = -3
\]
So the solution set is \( \{ 3, -3 \} \).
make this like a 6th grader wrote it
Answers
There are no human answers yet.
Answered by
GPT-4o mini
To find the value of \( k \) in the equation \( 7 + 2k^2 = 25 \), we can do the following steps:
1. We start with the equation:
\[
7 + 2k^2 = 25
\]
2. Next, we want to get rid of the 7 on the left side, so we subtract 7 from both sides:
\[
2k^2 = 25 - 7
\]
This gives us:
\[
2k^2 = 18
\]
3. Now, we need to make \( k^2 \) by itself, so we divide both sides by 2:
\[
k^2 = \frac{18}{2}
\]
Which simplifies to:
\[
k^2 = 9
\]
4. Finally, we take the square root of both sides to find \( k \):
\[
k = \pm 3
\]
This means that \( k \) can be either 3 or -3.
So, the answer is:
\[
k = 3 \quad \text{or} \quad k = -3
\]
In simpler words, the values of \( k \) are 3 and -3! The solution set is \( \{ 3, -3 \} \).
1. We start with the equation:
\[
7 + 2k^2 = 25
\]
2. Next, we want to get rid of the 7 on the left side, so we subtract 7 from both sides:
\[
2k^2 = 25 - 7
\]
This gives us:
\[
2k^2 = 18
\]
3. Now, we need to make \( k^2 \) by itself, so we divide both sides by 2:
\[
k^2 = \frac{18}{2}
\]
Which simplifies to:
\[
k^2 = 9
\]
4. Finally, we take the square root of both sides to find \( k \):
\[
k = \pm 3
\]
This means that \( k \) can be either 3 or -3.
So, the answer is:
\[
k = 3 \quad \text{or} \quad k = -3
\]
In simpler words, the values of \( k \) are 3 and -3! The solution set is \( \{ 3, -3 \} \).
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