Algebraic Functions - Variable Substitution to Equation - Fractional Terms (Level 1)

This math topic focuses on substituting variable values into algebraic functions that involve fractional terms. It aims to help students understand how to manipulate and simplify expressions under different scenarios by substituting specific values for variables in algebraic fractions. Each question presents a different algebraic fraction, where students substitute given values and choose the correct simplified result from multiple options. This is an integral part of practicing basic algebra concepts focused on variable substitution, expression simplification, and understanding the impact of different values in fractional algebraic equations.

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Variable Substitution to Equation - Fractional Terms

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What does this equation become when z=4, d=2

\frac{{5z}}{{5d}}

Algebraic Functions - Variable Substitution to Equation - Fractional Terms Worksheet

Math worksheet on 'Algebraic Functions - Variable Substitution to Equation - Fractional Terms (Level 1)'. Part of a broader unit on 'Algebra Basic Concepts - Practice' Learn online: app.mobius.academy/math/units/algebra_basic_concepts_practice/

What does this equation become when m=4, z=2

$A LaTex expression showing \frac{{4m}}{{2z}}$

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

b $A LaTex expression showing \frac{{4 times 4}}{{2 times 2}}$

c $A LaTex expression showing \frac{{4 + 4}}{{2 + 2}}$

A LaTex expression showing 4 - 4 + 2 - 2

A LaTex expression showing 4 to the power of {4 } + 2 to the power of {2 }

f $A LaTex expression showing \frac{{4 - 4}}{{2 - 2}}$

What does this equation become when z=2, p=3

$A LaTex expression showing \frac{{3z}}{{2p}}$

A LaTex expression showing 3 - 2 + 2 - 3

b $A LaTex expression showing \frac{{3 times 2}}{{2 times 3}}$

c $A LaTex expression showing \frac{{3 - 2}}{{2 - 3}}$

d $A LaTex expression showing \frac{{3 + 2}}{{2 + 3}}$

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

A LaTex expression showing 3 to the power of {2 } + 2 to the power of {3 }

What does this equation become when r=5, c=3

$A LaTex expression showing \frac{{6r}}{{2c}}$

a $A LaTex expression showing \frac{{6 - 5}}{{2 - 3}}$

b $A LaTex expression showing \frac{{6 times 5}}{{2 times 3}}$

c $A LaTex expression showing \frac{{6 + 5}}{{2 + 3}}$

A LaTex expression showing 6 - 5 + 2 - 3

e $A LaTex expression showing \frac{{6 to the power of {5 }}}{{2 to the power of {3 }}}$

A LaTex expression showing 6 to the power of {5 } + 2 to the power of {3 }

What does this equation become when z=4, r=5

$A LaTex expression showing \frac{{5z}}{{2r}}$

a $A LaTex expression showing \frac{{5 to the power of {4 }}}{{2 to the power of {5 }}}$

b $A LaTex expression showing \frac{{5 + 4}}{{2 + 5}}$

A LaTex expression showing 5 to the power of {4 } + 2 to the power of {5 }

A LaTex expression showing 5 - 4 + 2 - 5

e $A LaTex expression showing \frac{{5 times 4}}{{2 times 5}}$

f $A LaTex expression showing \frac{{5 - 4}}{{2 - 5}}$

What does this equation become when y=3, d=2

$A LaTex expression showing \frac{{6y}}{{3d}}$

A LaTex expression showing 6 - 3 + 3 - 2

b $A LaTex expression showing \frac{{6 + 3}}{{3 + 2}}$

A LaTex expression showing 6 to the power of {3 } + 3 to the power of {2 }

d $A LaTex expression showing \frac{{6 to the power of {3 }}}{{3 to the power of {2 }}}$

e $A LaTex expression showing \frac{{6 - 3}}{{3 - 2}}$

f $A LaTex expression showing \frac{{6 times 3}}{{3 times 2}}$

What does this equation become when r=4, n=2

$A LaTex expression showing \frac{{6r}}{{2n}}$

a $A LaTex expression showing \frac{{6 - 4}}{{2 - 2}}$

A LaTex expression showing 6 - 4 + 2 - 2

c $A LaTex expression showing \frac{{6 + 4}}{{2 + 2}}$

d $A LaTex expression showing \frac{{6 to the power of {4 }}}{{2 to the power of {2 }}}$

e $A LaTex expression showing \frac{{6 times 4}}{{2 times 2}}$

A LaTex expression showing 6 to the power of {4 } + 2 to the power of {2 }

What does this equation become when z=5, y=3

$A LaTex expression showing \frac{{6z}}{{2y}}$

A LaTex expression showing 6 - 5 + 2 - 3

b $A LaTex expression showing \frac{{6 - 5}}{{2 - 3}}$

c $A LaTex expression showing \frac{{6 to the power of {5 }}}{{2 to the power of {3 }}}$

d $A LaTex expression showing \frac{{6 times 5}}{{2 times 3}}$

A LaTex expression showing 6 to the power of {5 } + 2 to the power of {3 }

f $A LaTex expression showing \frac{{6 + 5}}{{2 + 3}}$