This math topic focuses on practicing the Pythagorean Theorem to find the length of missing sides in triangles, with results expressed as decimal values. It forms an introductory part of learning about Pythagoras' theorem, aimed at determining the side lengths of right-angled triangles. Each problem presents a triangle with sides labeled either missing or given, and learners calculate the length of the unknown side using the theorem. The answers are provided for each sub-question labeled from 'a' through 'f', offering a good range of examples to reinforce understanding of the theorem in practical scenarios.
Work on practice problems directly here, or download the printable pdf worksheet to practice offline.
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Find the length of the missing side as a decimal value based on the Pythagorean theorem
Math worksheet on 'Pythagorean Theorem - Length of Side (Decimal) (Level 1)'. Part of a broader unit on 'Pythagoras - Practice' Learn online: app.mobius.academy/math/units/pythagoras_practice/ |
Find the length of the missing side as a decimal value based on the Pythagorean theorem |
4.22 |
11.06 |
8.3 |
13.22 |
9.22 |
11.99 |
Find the length of the missing side as a decimal value based on the Pythagorean theorem |
7.27 |
5.74 |
5.2 |
3.12 |
1.2 |
1 |
Find the length of the missing side as a decimal value based on the Pythagorean theorem |
6.71 |
5.71 |
15 |
3.35 |
8.66 |
2.71 |
Find the length of the missing side as a decimal value based on the Pythagorean theorem |
7.47 |
4.02 |
5.74 |
11 |
28 |
6.89 |
Find the length of the missing side as a decimal value based on the Pythagorean theorem |
15 |
3.87 |
1.94 |
56 |
4.87 |
7.87 |
Find the length of the missing side as a decimal value based on the Pythagorean theorem |
4.32 |
6.32 |
4.31 |
3.32 |
30 |
2.65 |
Find the length of the missing side as a decimal value based on the Pythagorean theorem |
32 |
9.01 |
12 |
7.75 |
4.93 |
6.93 |