Divide. $$ \left(3 x^{2}+22 x+7\right) \div(x+7) $$ 0 Suggested tutorial: $$ \square $$ Learn It: Divide polynomials using long division. Need Help? Watch It SUBMIT ANHINER 5. [-/1 Pointc] DFTAIIS MV NOTEC

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Divide the polynomials by following steps:
- step0: Using Long Division to Divide Polynomials:
  $$\left(3x^{2}+22x+7\right)\div \left(x+7\right)$$
- step1: Calculate:
  $$\left(3x+1\right)\text{ }\textrm{remainder}\text{ }0$$
To divide the polynomial $$3x^{2} + 22x + 7$$ by $$x + 7$$ using long division, we follow these steps:

1. **Set up the division**: Write $$3x^{2} + 22x + 7$$ under the long division symbol and $$x + 7$$ outside.

2. **Divide the leading term**: Divide the leading term of the dividend $$3x^{2}$$ by the leading term of the divisor $$x$$:
   $$
   \frac{3x^{2}}{x} = 3x
   $$

3. **Multiply and subtract**: Multiply $$3x$$ by the entire divisor $$x + 7$$:
   $$
   3x(x + 7) = 3x^{2} + 21x
   $$
   Now subtract this from the original polynomial:
   $$
   (3x^{2} + 22x + 7) - (3x^{2} + 21x) = 22x - 21x + 7 = x + 7
   $$

4. **Repeat the process**: Now, divide the leading term $$x$$ by $$x$$:
   $$
   \frac{x}{x} = 1
   $$
   Multiply $$1$$ by the divisor $$x + 7$$:
   $$
   1(x + 7) = x + 7
   $$
   Subtract this from the current remainder:
   $$
   (x + 7) - (x + 7) = 0
   $$

5. **Conclusion**: Since the remainder is $$0$$, we conclude that:
   $$
   \left(3x^{2} + 22x + 7\right) \div (x + 7) = 3x + 1
   $$

Thus, the result of the division is:
$$
3x + 1
$$
The division of $$3x^{2} + 22x + 7$$ by $$x + 7$$ results in $$3x + 1$$.

Divide. \[ \left(3 x^{2}+22 x+7\right) \div(x+7) \] 0 Suggested tutorial: \( \square \) Learn It: Divide polynomials using long division. Need Help? Watch It SUBMIT ANHINER 5. [-/1 Pointc] DFTAIIS MV NOTEC

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