There are 48 triangles in a 50-gon polygon
Exterior = 360/100 = 3.6, making interior 180 - 3.6 ie 176.4
48
Now, a 50-gon (the correct term is a pentacontagon, but that takes too long to type) has 50 sides. The equation for the interior angle of a regular polygon (we're talking about a regular 50-gon, right?) is [(n-1)*180]\n where n is the number of sides the polygon has. So in this case, the sum of the interior angles is 8820, and the measure of one angle is 176.4 degrees.
125 degrees
There are 48 triangles in a 50-gon polygon
Exterior = 360/100 = 3.6, making interior 180 - 3.6 ie 176.4
180
48
One 50-gon and 50 triangles.
360/50 = 7.2 degrees
A 50-gon is a polygon that contains 50 sides. Just like all polygons, no matter what the number of sides, the total of all exterior angles of any concave polygon will be 360 degrees.
9000
The sum of the interior angles of a n-gon is (n-2)*180 degrees (n>2). So the sum for a 50-gon would be 48*180 = 8640 degrees.
3 sides= triangle 4 sides= quadrilateral 5 sides= pentagon 6 sides= hexagon 7 sides= heptagon 8 sides= octagon 9 sides= nonagon 10 sides= decagon 11 sides= hendecagon 12 sides= dodecagon 13 sides= tridecagon/13-gon 14 sides= tetradecagon/14-gon 15 sides= pentadecagon/15-gon 16 sides= hexadecagon/16-gon 17 sides= heptadecagon/17-gon 18 sides= octadecagon/18-gon 19 sides= enneadecagon/19-gon 20 sides= icosagon/20-gon 30 sides= triacontagon/30-gon 40 sides= tetracontagon/40-gon 50 sides= pentacontagon/50-gon 60 sides= hexacontagon/60-gon 70 sides= heptacontagon/70-gon 80 sides= octcontagon/80-gon 90 sides= nonacontagon/90-gon 100 sides= hectagon/100-gon 1,000 sides= chiliagon/1,000-gon 10,000 sides= myriagon/10,000-gon 100,000 sides= decimyriagon/100,000-gon 1,000,000 sides= hecatommyriagon/1,000,000-gon Since there are infinitely many polygons, it is impossible to list the names of all of them.
You multiply it by 180 degrees. So 180x50=9000
Charles Mesure's birth name is Charles William David Mesure.