SECTION 14-5 Applications of Right Triangles Slide
APPLICATIONS OF RIGHT TRIANGLES Calculator Approximations for Function Values Finding Angles Using Inverse Functions Significant Digits Solving Triangles Applications Slide
CALCULATOR APPROXIMATIONS FOR FUNCTION VALUES Slide Because calculators differ among makes and models, students should always consult their owner’s manual for specific information concerning their use. When evaluating trigonometric functions of angles given in degrees, it is a common error to use the incorrect mode; remember that the calculator must be set in the degree (not radian) mode.
EXAMPLE: FINDING FUNCTION VALUES WITH A CALCULATOR Slide Use a calculator to approximate the value of each trigonometric function. Solution
FINDING ANGLES USING INVERSE FUNCTIONS Slide We have used a calculator to find trigonometric function values of angles. This process can be reversed using inverse functions. Inverse functions are denoted by using –1 as a superscript. For example, the inverse of f is denoted f –1. For now we restrict our attention to angles in the interval The measure of an angle can be found from one of its trigonometric function values using inverse functions as show on the next slide.
EXAMPLE: USING INVERSE FUNCTIONS TO FIND ANGLES Slide Use a calculator to find a value for such that and satisfies each of the following. Solution Use sin -1 (2 nd and then sin). Use cos -1.
SIGNIFICANT DIGITS Slide A significant digit is a digit obtained by actual measurement. A number that represents the result of counting, a a number that results from theoretical work and is not the result of measurement, is an exact number. Most values of trigonometric functions are approximations, and virtually all measurements are approximations. To perform calculations on such approximate numbers, follow the rules on the next slide.
CALCULATION WITH SIGNIFICANT DIGITS Slide For adding and subtracting, round the answer so that the last digit you keep is in the rightmost column in which all the numbers have significant digits. For multiplying or dividing, round the answer to the least number of significant digits found in any of the given numbers. For powers and roots, round the answer so that it has the same number of significant digits as the numbers whose power or root you are finding.
SIGNIFICANT DIGITS FOR ANGLES Slide Number of Significant Digits Angle Measure to the Nearest: 2Degree 3Ten minutes, or nearest tenth of a degree 4Minute, or nearest hundredth of a degree 5Tenth of a minute, or nearest thousandth of a degree
SOLVING TRIANGLES Slide To solve a triangle means to find the measures of all the angles and all the sides of a triangle. In using trigonometry to solve triangles, a labeled sketch is useful. A B C a b c
EXAMPLE: SOLVING A RIGHT TRIANGLE GIVEN AN ANGLE AND A SIDE Slide A B C a b 14.8 Solve the triangle below. B = 90° – A = 90° – 40.3° = 49.7° Solution
EXAMPLE: SOLVING A RIGHT TRIANGLE GIVEN TWO SIDES Slide A B C a Solve the triangle below. B = 90° – 57.1° = 32.9° Solution
APPLICATIONS Slide The angle of elevation from point X to point Y (above X) is the acute angle formed by ray XY and a horizontal ray with endpoint at X. The angle of elevation is always measured from the horizontal. The angle of depression from point X to point Y (below X) is the acute angle formed by ray XY and a horizontal ray with endpoint at X. Angle of elevation X Y Horizontal Angle of depression X Y Horizontal
EXAMPLE: ANGLE OF ELEVATION Slide The length of the shadow of a building meters tall is meters. Find the angle of elevation of the sun m m The angle of elevation of the sun is 41.09°. Solution