Using the Law of Sines to solve the triangle if a = 129 degrees, a = 33, b = 38. Round to two decimal places. As in the text, (a,a), (B, b) and (y,c) are angle-side opposite pairs. If no such triangle exists, enter DNE. B = ______degrees, y = _______degrees, and c = _________
Using the Law of Sines to solve the triangle if a = 129 degrees, a = 33, b = 38. Round to two decimal places. As in the text, (a,a), (B, b) and (y,c) are angle-side opposite pairs. If no such triangle exists, enter DNE. B = ______degrees, y = _______degrees, and c = _________
Using the Law of Sines to solve the triangle if a = 129 degrees, a = 33, b = 38. Round to two decimal places. As in the text, (a,a), (B, b) and (y,c) are angle-side opposite pairs. If no such triangle exists, enter DNE. B = ______degrees, y = _______degrees, and c = _________
Using the Law of Sines to solve the triangle if a = 129 degrees, a = 33, b = 38. Round to two decimal places. As in the text, (a,a), (B, b) and (y,c) are angle-side opposite pairs. If no such triangle exists, enter DNE.
B = ______degrees,
y = _______degrees,
and c = _________
Figure in plane geometry formed by two rays or lines that share a common endpoint, called the vertex. The angle is measured in degrees using a protractor. The different types of angles are acute, obtuse, right, straight, and reflex.
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