6. $(2^{2x + 2})(2^{3x - 7}) = 2^{25}$
7. $\frac{8^{\frac{x}{2}}}{4^{\frac{x}{3}}} = 2^{-\frac{5}{2}}$
9. $3 = (5^{\frac{1}{3}})(x^{\frac{1}{3}})$
10. $36^{2x - 7} = 6^{x - 5}$

Question

Accepted Answer

### Problem 6: $(2^{2x + 2})(2^{3x - 7}) = 2^{25}$
# Explanation:
## Step 1: Use exponent rule $a^m \cdot a^n = a^{m + n}$
When multiplying two exponential terms with the same base, we add the exponents. So, $(2^{2x + 2})(2^{3x - 7}) = 2^{(2x + 2)+(3x - 7)}$
Simplify the exponent: $(2x + 2)+(3x - 7)=2x + 2+3x - 7 = 5x - 5$
So the equation becomes $2^{5x - 5}=2^{25}$

## Step 2: Set exponents equal (since bases are equal)
If $a^m=a^n$ and $a>0,a
eq1$, then $m = n$. Here $a = 2$, so $5x-5=25$

## Step 3: Solve for $x$
Add 5 to both sides: $5x=25 + 5=30$
Divide both sides by 5: $x=\frac{30}{5}=6$

# Answer: $x = 6$

### Problem 7: $\frac{8^{\frac{x}{2}}}{4^{\frac{x}{3}}}=2^{-\frac{5}{2}}$
# Explanation:
## Step 1: Rewrite 8 and 4 as powers of 2
We know that $8 = 2^3$ and $4=2^2$. So, $8^{\frac{x}{2}}=(2^3)^{\frac{x}{2}}$ and $4^{\frac{x}{3}}=(2^2)^{\frac{x}{3}}$

## Step 2: Use exponent rule $(a^m)^n=a^{mn}$
For $(2^3)^{\frac{x}{2}}$, we have $2^{3\times\frac{x}{2}}=2^{\frac{3x}{2}}$
For $(2^2)^{\frac{x}{3}}$, we have $2^{2\times\frac{x}{3}}=2^{\frac{2x}{3}}$
The left - hand side becomes $\frac{2^{\frac{3x}{2}}}{2^{\frac{2x}{3}}}$

## Step 3: Use exponent rule $\frac{a^m}{a^n}=a^{m - n}$
$\frac{2^{\frac{3x}{2}}}{2^{\frac{2x}{3}}}=2^{\frac{3x}{2}-\frac{2x}{3}}$
Find a common denominator for the exponents: $\frac{3x}{2}-\frac{2x}{3}=\frac{9x - 4x}{6}=\frac{5x}{6}$
So the equation is $2^{\frac{5x}{6}}=2^{-\frac{5}{2}}$

## Step 4: Set exponents equal
Since the bases are equal ($a = 2$), we have $\frac{5x}{6}=-\frac{5}{2}$

## Step 5: Solve for $x$
Multiply both sides by 6: $5x=-\frac{5}{2}\times6=- 15$
Divide both sides by 5: $x=-3$

# Answer: $x=-3$

### Problem 9: $3=(5^{\frac{1}{3}})(x^{\frac{1}{3}})$
# Explanation:
## Step 1: Use the property $a^m\times b^m=(ab)^m$
We can rewrite the right - hand side as $(5x)^{\frac{1}{3}}$ (since $a^{\frac{1}{3}}\times b^{\frac{1}{3}}=(ab)^{\frac{1}{3}}$)
So the equation is $3=(5x)^{\frac{1}{3}}$

## Step 2: Cube both sides
To eliminate the cube root, we cube both sides of the equation. $(3)^3=((5x)^{\frac{1}{3}})^3$
We know that $(a^m)^n=a^{mn}$, so $((5x)^{\frac{1}{3}})^3=(5x)^{\frac{1}{3}\times3}=5x$ and $3^3 = 27$
The equation becomes $27 = 5x$

## Step 3: Solve for $x$
Divide both sides by 5: $x=\frac{27}{5}=5.4$

# Answer: $x=\frac{27}{5}$ (or $x = 5.4$)

### Problem 10: $36^{2x-7}=6^{x - 5}$
# Explanation:
## Step 1: Rewrite 36 as a power of 6
We know that $36=6^2$, so $36^{2x - 7}=(6^2)^{2x-7}$

## Step 2: Use exponent rule $(a^m)^n=a^{mn}$
$(6^2)^{2x-7}=6^{2\times(2x - 7)}=6^{4x-14}$
So the equation becomes $6^{4x-14}=6^{x - 5}$

## Step 3: Set exponents equal
Since the bases are equal ($a = 6$), we have $4x-14=x - 5$

## Step 4: Solve for $x$
Subtract $x$ from both sides: $4x-x-14=x - x-5$, which simplifies to $3x-14=-5$
Add 14 to both sides: $3x=-5 + 14 = 9$
Divide both sides by 3: $x=\frac{9}{3}=3$

# Answer: $x = 3$

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QUESTION IMAGE

Question

Explanation:

Problem 6: \((2^{2x + 2})(2^{3x - 7}) = 2^{25}\)

Step 1: Use exponent rule \(a^m \cdot a^n = a^{m + n}\)

Step 2: Set exponents equal (since bases are equal)

Step 3: Solve for \(x\)

Step 1: Rewrite 8 and 4 as powers of 2

Step 2: Use exponent rule \((a^m)^n=a^{mn}\)

Step 3: Use exponent rule \(\frac{a^m}{a^n}=a^{m - n}\)

Step 4: Set exponents equal

Step 5: Solve for \(x\)

Step 1: Use the property \(a^m\times b^m=(ab)^m\)

Step 2: Cube both sides

Step 3: Solve for \(x\)

Answer:

Problem 7: \(\frac{8^{\frac{x}{2}}}{4^{\frac{x}{3}}}=2^{-\frac{5}{2}}\)