...The latitude of a line of closed traverse is its length multiplied by (1) tangent of reduced...

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Transcript of ...The latitude of a line of closed traverse is its length multiplied by (1) tangent of reduced...

Page 1: ...The latitude of a line of closed traverse is its length multiplied by (1) tangent of reduced bearing (3) cosine of reduced bearing (2) sine of reduced bearing (4) secant of reduced
Page 2: ...The latitude of a line of closed traverse is its length multiplied by (1) tangent of reduced bearing (3) cosine of reduced bearing (2) sine of reduced bearing (4) secant of reduced
Page 3: ...The latitude of a line of closed traverse is its length multiplied by (1) tangent of reduced bearing (3) cosine of reduced bearing (2) sine of reduced bearing (4) secant of reduced
Page 4: ...The latitude of a line of closed traverse is its length multiplied by (1) tangent of reduced bearing (3) cosine of reduced bearing (2) sine of reduced bearing (4) secant of reduced
Page 5: ...The latitude of a line of closed traverse is its length multiplied by (1) tangent of reduced bearing (3) cosine of reduced bearing (2) sine of reduced bearing (4) secant of reduced
Page 6: ...The latitude of a line of closed traverse is its length multiplied by (1) tangent of reduced bearing (3) cosine of reduced bearing (2) sine of reduced bearing (4) secant of reduced
Page 7: ...The latitude of a line of closed traverse is its length multiplied by (1) tangent of reduced bearing (3) cosine of reduced bearing (2) sine of reduced bearing (4) secant of reduced
Page 8: ...The latitude of a line of closed traverse is its length multiplied by (1) tangent of reduced bearing (3) cosine of reduced bearing (2) sine of reduced bearing (4) secant of reduced
Page 9: ...The latitude of a line of closed traverse is its length multiplied by (1) tangent of reduced bearing (3) cosine of reduced bearing (2) sine of reduced bearing (4) secant of reduced
Page 10: ...The latitude of a line of closed traverse is its length multiplied by (1) tangent of reduced bearing (3) cosine of reduced bearing (2) sine of reduced bearing (4) secant of reduced
Page 11: ...The latitude of a line of closed traverse is its length multiplied by (1) tangent of reduced bearing (3) cosine of reduced bearing (2) sine of reduced bearing (4) secant of reduced
Page 12: ...The latitude of a line of closed traverse is its length multiplied by (1) tangent of reduced bearing (3) cosine of reduced bearing (2) sine of reduced bearing (4) secant of reduced
Page 13: ...The latitude of a line of closed traverse is its length multiplied by (1) tangent of reduced bearing (3) cosine of reduced bearing (2) sine of reduced bearing (4) secant of reduced
Page 14: ...The latitude of a line of closed traverse is its length multiplied by (1) tangent of reduced bearing (3) cosine of reduced bearing (2) sine of reduced bearing (4) secant of reduced
Page 15: ...The latitude of a line of closed traverse is its length multiplied by (1) tangent of reduced bearing (3) cosine of reduced bearing (2) sine of reduced bearing (4) secant of reduced
Page 16: ...The latitude of a line of closed traverse is its length multiplied by (1) tangent of reduced bearing (3) cosine of reduced bearing (2) sine of reduced bearing (4) secant of reduced
Page 17: ...The latitude of a line of closed traverse is its length multiplied by (1) tangent of reduced bearing (3) cosine of reduced bearing (2) sine of reduced bearing (4) secant of reduced
Page 18: ...The latitude of a line of closed traverse is its length multiplied by (1) tangent of reduced bearing (3) cosine of reduced bearing (2) sine of reduced bearing (4) secant of reduced
Page 19: ...The latitude of a line of closed traverse is its length multiplied by (1) tangent of reduced bearing (3) cosine of reduced bearing (2) sine of reduced bearing (4) secant of reduced
Page 20: ...The latitude of a line of closed traverse is its length multiplied by (1) tangent of reduced bearing (3) cosine of reduced bearing (2) sine of reduced bearing (4) secant of reduced

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