Joel Is Laying Pipe For A Sprinkler System
Joel installed pipes for the irrigation system before installing his LA. Is that okay, 1?
The answer is B.
* Suppose ABCD exists.
Because:
AB = 15 feet
BC = 8 feet
AC = diagonal, can be found.
Use Psprous Theorem:
AB ^ 2 + BC ^ 2 = AC ^ 2
15 ^ 2 + 8 ^ 2 = AC ^ 2
225 + 64 = AC ^ 2
AC ^ 2 = 289
AC = square root [289]
CA = 17 feet.
This diagonal tube is 17 feet long.
(Someone else worked, so I won't provide that / I expect a better response ... Actually, just a comment)
Just above B value. It's better to be a little wrong about size ...
Use Pythagorean Theorem / Pythagorean Theorem
Diameter = √ (15² + 7²) = 16.5 feet
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Joel Is Laying Pipe For A Sprinkler System
Joel Is Laying Pipe For A Sprinkler System
Joel has a hose in his path to keep the irrigation system running. Is that a monument, 1? 3
Joel ■■■■■■ a hose to keep the sprinkler system in his path. La La is a reclining, 4.5 meters long and 2.5 meters wide. You need to direct a piece of pipe that runs along the diagonal a. You divide the area into two right triangles. How long is this piece of pipe diagonally?
A.289 feet
B.17 feet
120 feet
D.23 feet
The answer is b
* Suppose ABCD exists.
Because:
AB = 15 feet
SM = 8 feet
AC = diagonal, can be found.
Use Psprous' Theorem:
AB 2 + SM 2 = AC 2
15 2 + 8 2 = AC 2
225 + 64 = alternating current 2
AC 2 = 289
AC = square root [289]
CA = 17 feet.
The oblique length of this tube will be 17 feet.
(Others have worked so I won't reveal it / hope for a better answer ... really a comment)
B Only the above price. Better a poor horse than no horse at all.
Use Pythagoras Theorem / Pythagoras Theorem (I'm sure Alphas b Theorem is a bad memory, but it made me laugh!)
