No, it does not.
Use the law of sines.
Yes, the law of sines can be used in a right triangle. The law applies to any arbitrary triangle.
The tricky part of the law of sines is knowing when you are able to use it. Whether you can use the law of Sine's or not depends on what information you have or were given. In some cases the information you were given could make two different triangles. There are three times when you can use the law of sines. One example of when you can use it is when you have the length of a side and the measures of both the angles that that side is adjacent to. This is called angle side angle or asa for short. Another time when you can use the law of sines is when you are given the measures of two angles and a side that is outside the angles. This is called aas. Finally the last case where you can use the law of sines is when you have two side lengths and the measure of an angle. Math teachers refer to this one as ssa, I remember that this one is special. If you are given the measure of an angle and two sides you could have two different triangles.
Yesterday's date cannot be used.
No, it does not.
Because, this theorem comes from the law of sines which is completely a triangle law and the law of sines can not be applied on other polygons.
Use Law of Sines if you know:Two angle measures and any side length orTwo side lengths and a non-included angle measure.Use Law of Cosines if you know:Two side lengths and the included angle measure orThree side lengths.
Yes. If you have two angles, by implication, you have all three. You therefore have a pair of opposite angle and side so that the law of sines can be applied.
There are several cases when you would want to use the law of sines. When you have angle angle side, angle side angle, or angle side side you would use the law of sines.
Proof comes directly from the law of sines.
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A triangle using the law of sines
Use the law of sines.
Yes, the law of sines can be used in a right triangle. The law applies to any arbitrary triangle.
SinA/a = SinB/b = SinC/c
no #9