Home
Grade 1Grade 2Grade 3Grade 4Grade 5Grade 6Grade 7Grade 8Grade 9Grade 10Math Themes
Explorers (Grades 1-3)Explorers Elite (1-3)Navigators (Grades 4-6)Navigators Elite (4-6)Challengers (Grades 7-9)Challengers Elite (7-9)Schedule an Evaluation
Mobius MethodFlexible ClassesCompanySupport
Pricing
Ctrl+k
Sign InJoin
Algebraic Function

Variable Substitution to Equation - Fractional Terms (Negatives) (Level 2)

This math topic focuses on substituting variables into algebraic expressions involving fractional and negative terms. It is part of a unit on negative integers, emphasizing equation manipulation with negative numbers and fractions. Each question presents a fraction containing variables, where students substitute given numbers for these variables to simplify the expression. The questions test the student's ability to apply basic arithmetic operations on fractions including addition, subtraction, multiplication, and understanding of powers, enhancing their skills in algebraic manipulation and integer properties.

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

more
View

Algebraic Functions - Variable Substitution to Equation - Fractional Terms (Negatives) Worksheet

Mobius Math Academy logo
Math worksheet on 'Algebraic Functions - Variable Substitution to Equation - Fractional Terms (Negatives) (Level 2)'. Part of a broader unit on 'Algebra Basic Concepts - Practice' Learn online: app.mobius.academy/math/units/algebra_basic_concepts_practice/
1
A LaTex expression showing \frac{{6d + 4b}}{{2p}}
What does this equation become when d=4, p=8, b=-6
a A LaTex expression showing \frac{{6 times 4 + 4 times (-6)}}{{2 times 8}}
b A LaTex expression showing \frac{{6 + 4 + 4 + (-6)}}{{2 + 8}}
2
A LaTex expression showing \frac{{6x - 3p}}{{5y}}
What does this equation become when x=7, y=-6, p=4
a A LaTex expression showing \frac{{6 times 7 - 3 times 4}}{{5 times (-6)}}
b A LaTex expression showing \frac{{6 to the power of {7 } + 3 to the power of {4 }}}{{5 to the power of {(-6) }}}
3
A LaTex expression showing \frac{{4x - 6m}}{{6n}}
What does this equation become when x=3, n=-8, m=-6
a A LaTex expression showing \frac{{4 times 3 - 6 times (-6)}}{{6 times (-8)}}
b A LaTex expression showing 3 to the power of {4 } + (-8) to the power of {6 }
4
A LaTex expression showing \frac{{6c - 5d}}{{4p}}
What does this equation become when c=-5, p=3, d=6
a A LaTex expression showing \frac{{6 times (-5) + 5 times 6}}{{4 times 3}}
b A LaTex expression showing \frac{{6 times (-5) - 5 times 6}}{{4 times 3}}
5
A LaTex expression showing \frac{{6x - 3n}}{{4y}}
What does this equation become when x=7, y=6, n=-2
a A LaTex expression showing \frac{{6 - 7 - 3 - (-2)}}{{4 - 6}}
b A LaTex expression showing \frac{{6 times 7 - 3 times (-2)}}{{4 times 6}}
6
A LaTex expression showing \frac{{2x + 3z}}{{3m}}
What does this equation become when x=-6, m=2, z=-4
a A LaTex expression showing 2 - (-6) + 3 - 2
b A LaTex expression showing \frac{{2 times (-6) + 3 times (-4)}}{{3 times 2}}
7
A LaTex expression showing \frac{{7m - 5x}}{{6y}}
What does this equation become when m=-7, y=-2, x=-5
a A LaTex expression showing 7 to the power of {(-7) } + 6 to the power of {(-2) }
b A LaTex expression showing \frac{{7 times (-7) - 5 times (-5)}}{{6 times (-2)}}