HomePricing
Sign InJoin

Scientific Notation (Decimals) - Dividing Normalized Numbers (0 Decimal Place) (Level 3)

This math topic focuses on understanding and practicing the division of numbers written in or close to scientific notation, specifically when normalized to have no decimal places. Each problem requires manipulating decimal numbers formatted nearly in scientific notation through division, honing skills in shifting decimal points and simplifying complex numerical expressions. This topic is a sub-section of a broader unit exploring the basics of multiplication and division within scientific notation. Each question provides multiple-choice answers, facilitating the application of these concepts through direct problem-solving.

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

View Unit

Decimals - Dividing Normalized Numbers (0 Decimal Place)

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

Solve the equation by dividing numbers that are almost in scientific notation

(4×0.000000001)(4×0.00001)\frac{(4\times {0.000000001}) }{ (4\times {0.00001})}

Scientific Notation (Decimals) - Dividing Normalized Numbers (0 Decimal Place) Worksheet

Mobius Math Club logo
Math worksheet on 'Scientific Notation (Decimals) - Dividing Normalized Numbers (0 Decimal Place) (Level 3)'. Part of a broader unit on 'Scientific Notation - Multiplication and Division - Practice' Learn online: app.mobius.academy/math/units/scientific_notation_multiplication_and_division_practice/
1
Solve the equation by dividing numbers that are almost in scientific notation
A LaTex expression showing \frac{(3 multiplied by {0.00000001}) }{ (1 multiplied by {0.00001})}
a
3 x 0.0001
b
3 x 0.1
c
3 x 0.001
d
3 x 0.01
e
3 x 0.00001
f
3 x 0.000001
2
Solve the equation by dividing numbers that are almost in scientific notation
A LaTex expression showing \frac{(6 multiplied by {0.0000001}) }{ (6 multiplied by {0.001})}
a
1 x 0.000001
b
1 x 0.0000001
c
1 x 0.001
d
1 x 0.0001
e
1 x 0.01
f
1 x 0.00001
3
Solve the equation by dividing numbers that are almost in scientific notation
A LaTex expression showing \frac{(3 multiplied by {0.0000001}) }{ (3 multiplied by {0.0001})}
a
1 x 0.00001
b
1 x 0.000001
c
1 x 0.01
d
1 x 0.001
e
1 x 0.1
f
1 x 0.0001
4
Solve the equation by dividing numbers that are almost in scientific notation
A LaTex expression showing \frac{(4 multiplied by {0.000000001}) }{ (4 multiplied by {0.00001})}
a
1 x 0.00001
b
1 x 0.0001
c
1 x 0.000001
d
1 x 0.01
e
1 x 0.0000001
f
1 x 0.001
5
Solve the equation by dividing numbers that are almost in scientific notation
A LaTex expression showing \frac{(4 multiplied by {0.00000001}) }{ (2 multiplied by {0.00001})}
a
2 x 0.00001
b
2 x 0.000001
c
2 x 0.0001
d
2 x 0.1
e
2 x 0.001
f
2 x 0.01
6
Solve the equation by dividing numbers that are almost in scientific notation
A LaTex expression showing \frac{(8 multiplied by {0.0000001}) }{ (4 multiplied by {0.0001})}
a
2 x 0.1
b
2 x 0.000001
c
2 x 0.001
d
2 x 0.01
e
2 x 0.0001
f
2 x 0.00001
7
Solve the equation by dividing numbers that are almost in scientific notation
A LaTex expression showing \frac{(6 multiplied by {0.000000001}) }{ (6 multiplied by {0.00001})}
a
1 x 0.0000001
b
1 x 0.00001
c
1 x 0.000001
d
1 x 0.001
e
1 x 0.0001
f
1 x 0.01