Basic Math Examples

$6 c + 5 \div (6 c^{3} - 49 c^{2} - 87 c - 35)$

Step 1

Rewrite the division as a fraction.

$6 c + \frac{5}{6 c^{3} - 49 c^{2} - 87 c - 35}$

Step 2

To write $6 c$ as a fraction with a common denominator, multiply by $\frac{6 c^{3} - 49 c^{2} - 87 c - 35}{6 c^{3} - 49 c^{2} - 87 c - 35}$ .

$\frac{6 c (6 c^{3} - 49 c^{2} - 87 c - 35)}{6 c^{3} - 49 c^{2} - 87 c - 35} + \frac{5}{6 c^{3} - 49 c^{2} - 87 c - 35}$

Step 3

Combine the numerators over the common denominator.

$\frac{6 c (6 c^{3} - 49 c^{2} - 87 c - 35) + 5}{6 c^{3} - 49 c^{2} - 87 c - 35}$

Step 4

Simplify the numerator.

Tap for more steps...

Step 4.1

Apply the distributive property.

$\frac{6 c (6 c^{3}) + 6 c (- 49 c^{2}) + 6 c (- 87 c) + 6 c \cdot - 35 + 5}{6 c^{3} - 49 c^{2} - 87 c - 35}$

Step 4.2

Simplify.

Tap for more steps...

Step 4.2.1

Rewrite using the commutative property of multiplication.

$\frac{6 \cdot 6 c \cdot c^{3} + 6 c (- 49 c^{2}) + 6 c (- 87 c) + 6 c \cdot - 35 + 5}{6 c^{3} - 49 c^{2} - 87 c - 35}$

Step 4.2.2

Rewrite using the commutative property of multiplication.

$\frac{6 \cdot 6 c \cdot c^{3} + 6 \cdot - 49 c \cdot c^{2} + 6 c (- 87 c) + 6 c \cdot - 35 + 5}{6 c^{3} - 49 c^{2} - 87 c - 35}$

Step 4.2.3

Rewrite using the commutative property of multiplication.

$\frac{6 \cdot 6 c \cdot c^{3} + 6 \cdot - 49 c \cdot c^{2} + 6 \cdot - 87 c \cdot c + 6 c \cdot - 35 + 5}{6 c^{3} - 49 c^{2} - 87 c - 35}$

Step 4.2.4

Multiply $- 35$ by $6$ .

$\frac{6 \cdot 6 c \cdot c^{3} + 6 \cdot - 49 c \cdot c^{2} + 6 \cdot - 87 c \cdot c - 210 c + 5}{6 c^{3} - 49 c^{2} - 87 c - 35}$

Step 4.3

Simplify each term.

Tap for more steps...

Step 4.3.1

Multiply $c$ by $c^{3}$ by adding the exponents.

Tap for more steps...

Step 4.3.1.1

Move $c^{3}$ .

$\frac{6 \cdot 6 (c^{3} c) + 6 \cdot - 49 c \cdot c^{2} + 6 \cdot - 87 c \cdot c - 210 c + 5}{6 c^{3} - 49 c^{2} - 87 c - 35}$

Step 4.3.1.2

Multiply $c^{3}$ by $c$ .

Tap for more steps...

Step 4.3.1.2.1

Raise $c$ to the power of $1$ .

$\frac{6 \cdot 6 (c^{3} c^{1}) + 6 \cdot - 49 c \cdot c^{2} + 6 \cdot - 87 c \cdot c - 210 c + 5}{6 c^{3} - 49 c^{2} - 87 c - 35}$

Step 4.3.1.2.2

Use the power rule $a^{m} a^{n} = a^{m + n}$ to combine exponents.

$\frac{6 \cdot 6 c^{3 + 1} + 6 \cdot - 49 c \cdot c^{2} + 6 \cdot - 87 c \cdot c - 210 c + 5}{6 c^{3} - 49 c^{2} - 87 c - 35}$

Step 4.3.1.3

Add $3$ and $1$ .

$\frac{6 \cdot 6 c^{4} + 6 \cdot - 49 c \cdot c^{2} + 6 \cdot - 87 c \cdot c - 210 c + 5}{6 c^{3} - 49 c^{2} - 87 c - 35}$

Step 4.3.2

Multiply $6$ by $6$ .

$\frac{36 c^{4} + 6 \cdot - 49 c \cdot c^{2} + 6 \cdot - 87 c \cdot c - 210 c + 5}{6 c^{3} - 49 c^{2} - 87 c - 35}$

Step 4.3.3

Multiply $c$ by $c^{2}$ by adding the exponents.

Tap for more steps...

Step 4.3.3.1

Move $c^{2}$ .

$\frac{36 c^{4} + 6 \cdot - 49 (c^{2} c) + 6 \cdot - 87 c \cdot c - 210 c + 5}{6 c^{3} - 49 c^{2} - 87 c - 35}$

Step 4.3.3.2

Multiply $c^{2}$ by $c$ .

Tap for more steps...

Step 4.3.3.2.1

Raise $c$ to the power of $1$ .

$\frac{36 c^{4} + 6 \cdot - 49 (c^{2} c^{1}) + 6 \cdot - 87 c \cdot c - 210 c + 5}{6 c^{3} - 49 c^{2} - 87 c - 35}$

Step 4.3.3.2.2

Use the power rule $a^{m} a^{n} = a^{m + n}$ to combine exponents.

$\frac{36 c^{4} + 6 \cdot - 49 c^{2 + 1} + 6 \cdot - 87 c \cdot c - 210 c + 5}{6 c^{3} - 49 c^{2} - 87 c - 35}$

Step 4.3.3.3

Add $2$ and $1$ .

$\frac{36 c^{4} + 6 \cdot - 49 c^{3} + 6 \cdot - 87 c \cdot c - 210 c + 5}{6 c^{3} - 49 c^{2} - 87 c - 35}$

Step 4.3.4

Multiply $6$ by $- 49$ .

$\frac{36 c^{4} - 294 c^{3} + 6 \cdot - 87 c \cdot c - 210 c + 5}{6 c^{3} - 49 c^{2} - 87 c - 35}$

Step 4.3.5

Multiply $c$ by $c$ by adding the exponents.

Tap for more steps...

Step 4.3.5.1

Move $c$ .

$\frac{36 c^{4} - 294 c^{3} + 6 \cdot - 87 (c \cdot c) - 210 c + 5}{6 c^{3} - 49 c^{2} - 87 c - 35}$

Step 4.3.5.2

Multiply $c$ by $c$ .

$\frac{36 c^{4} - 294 c^{3} + 6 \cdot - 87 c^{2} - 210 c + 5}{6 c^{3} - 49 c^{2} - 87 c - 35}$

Step 4.3.6

Multiply $6$ by $- 87$ .

$\frac{36 c^{4} - 294 c^{3} - 522 c^{2} - 210 c + 5}{6 c^{3} - 49 c^{2} - 87 c - 35}$