Exponents - Division Answer First - Positive by Positive to Positive (Level 1)

This math topic focuses on practicing exponent division, where the results are determined by dividing positive exponents by other positive exponents. Each problem provides an equation involving division of terms with exponents and asks to select the division that would result in a given exponent. It's part of an introductory unit on exponent division, aimed to develop and sharpen students' skills in manipulating powers and understanding the rules governing division of powers.

Work on practice problems directly here, or download the printable pdf worksheet to practice offline.

Division Answer First - Positive by Positive to Positive

Complete these online problems with 80% or 4 correct answers in a row. Results are immediate.

Which division has this as the answer?

z^{3}

Exponents - Division Answer First - Positive by Positive to Positive Worksheet

Math worksheet on 'Exponents - Division Answer First - Positive by Positive to Positive (Level 1)'. Part of a broader unit on 'Exponents - Division - Intro' Learn online: app.mobius.academy/math/units/exponents_division_intro/

Which division has this as the answer?

A LaTex expression showing x

a $A LaTex expression showing \frac{x to the power of 6 }{x to the power of 3 }$

b $A LaTex expression showing \frac{x to the power of 4 }{x to the power of 1 }$

c $A LaTex expression showing \frac{x to the power of 4 }{x to the power of 2 }$

d $A LaTex expression showing \frac{x to the power of 4 }{x to the power of 3 }$

e $A LaTex expression showing \frac{x to the power of 1 }{x to the power of 3 }$

Which division has this as the answer?

A LaTex expression showing d to the power of 2

a $A LaTex expression showing \frac{d to the power of 3 }{d to the power of 1 }$

b $A LaTex expression showing \frac{d to the power of 3 }{d to the power of -1 }$

c $A LaTex expression showing \frac{d to the power of 4 }{d to the power of 1 }$

d $A LaTex expression showing \frac{d to the power of 1 }{d to the power of 1 }$

Which division has this as the answer?

A LaTex expression showing n

a $A LaTex expression showing \frac{n to the power of 5 }{n to the power of 4 }$

b $A LaTex expression showing \frac{n to the power of 6 }{n to the power of 4 }$

c $A LaTex expression showing \frac{n to the power of 5 }{n to the power of 6 }$

d $A LaTex expression showing \frac{n to the power of 5 }{n to the power of 1 }$

e $A LaTex expression showing \frac{n to the power of 5 }{n to the power of 5 }$

Which division has this as the answer?

A LaTex expression showing y

a $A LaTex expression showing \frac{y to the power of 1 }{y to the power of 1 }$

b $A LaTex expression showing \frac{y to the power of -1 }{y to the power of 1 }$

c $A LaTex expression showing \frac{y to the power of 4 }{y to the power of 1 }$

d $A LaTex expression showing \frac{y to the power of 2 }{y to the power of 1 }$

e $A LaTex expression showing \frac{y to the power of 0 }{y to the power of 1 }$

Which division has this as the answer?

A LaTex expression showing p to the power of 3

a $A LaTex expression showing \frac{p to the power of 4 }{p to the power of -2 }$

b $A LaTex expression showing \frac{p to the power of 6 }{p to the power of 1 }$

c $A LaTex expression showing \frac{p to the power of 2 }{p to the power of 1 }$

d $A LaTex expression showing \frac{p to the power of 4 }{p to the power of 1 }$

e $A LaTex expression showing \frac{p to the power of 5 }{p to the power of 1 }$

Which division has this as the answer?

A LaTex expression showing r

a $A LaTex expression showing \frac{r to the power of 3 }{r to the power of 2 }$

b $A LaTex expression showing \frac{r to the power of 3 }{r to the power of 0 }$

c $A LaTex expression showing \frac{r to the power of 2 }{r to the power of 2 }$

d $A LaTex expression showing \frac{r to the power of 3 }{r to the power of -1 }$

e $A LaTex expression showing \frac{r to the power of 1 }{r to the power of 2 }$

Which division has this as the answer?

A LaTex expression showing d

a $A LaTex expression showing \frac{d to the power of 2 }{d to the power of 1 }$

b $A LaTex expression showing \frac{d to the power of 3 }{d to the power of 1 }$

c $A LaTex expression showing \frac{d to the power of 0 }{d to the power of 1 }$

d $A LaTex expression showing \frac{d to the power of 4 }{d to the power of 1 }$

e $A LaTex expression showing \frac{d to the power of 2 }{d to the power of -2 }$