Q. 60 For any triangle, derive the for... [FREE SOLUTION]

91影视

Precalculus Enhanced with Graphing Utilities

Sullivan

$Math Studyset 91影视 Explanations$ Math

6th Edition 路 1200 pages

ISBN: 9780321795465

Chapter 8: Q. 60 (page 530)

For any triangle, derive the formula $a = b \cos C + c \cos B$
$[H i n t : U s e t h e f a c t t h a t \sin A = \sin (180^{鈭�} - B - C)]$

Short Answer

Expert verified

This is proved that $a = b \cos C + c \cos B$

Step by step solution

Step 1. Given Information

Use $\frac{\sin A}{a} = \frac{\sin B}{b} = \frac{\sin C}{c} L a w o f S i n e s$

Sum of angles in a triangle $A + B + C = 180^{鈭�}$

Sum formula $\sin (x + y) = \sin x \cos y + \cos x \sin y$

Co-function Identity $\cos (90^{鈭�} - 胃) = \sin 胃 \sin (90^{鈭�} - 胃) = \cos 胃$

Step 2. Rewrite the law of Sines for a and A, b and B.

$\frac{\sin A}{a} = \frac{\sin B}{b} \frac{a}{\sin A} = \frac{b}{\sin B} a = \frac{b 路 \sin A}{\sin B}$

Step 3. Rewrite law of Sines for a and A, c and C

$\frac{\sin A}{a} = \frac{\sin C}{c} \frac{a}{\sin A} = \frac{c}{\sin C} a = \frac{c 路 \sin A}{\sin C}$

Step 4. Add two equations

$a + a = \frac{b 路 \sin A}{\sin B} + \frac{c 路 \sin A}{\sin C} 2 a = \frac{b 路 \sin A}{\sin B} + \frac{c 路 \sin A}{\sin C}$

Step 5. Write the equation for Sine

$\sin A = \sin (180^{鈭�} - B - C) \sin A = \sin (90^{鈭�} + 90^{鈭�} - B - C) \sin A = \sin [(90^{鈭�} - B) + (90^{鈭�} - C)]$

Use the sum formula

$\sin A = \sin [(90^{鈭�} - B) + (90^{鈭�} - C)] \sin A = \sin (90^{鈭�} - B) \cos (90^{鈭�} - C) + \cos (90^{鈭�} - B) \sin (90^{鈭�} - C) \sin A = \cos B \sin C + \sin B \cos C$

Step 6. Plug the value of sinA into 2a=b·sinAsinB+c·sinAsinC

$2 a = \frac{b 路 \sin A}{\sin B} + \frac{c 路 \sin A}{\sin C}$

$2 a = \frac{b (\cos B \sin C + \sin B \cos C)}{\sin B} + \frac{c (\cos B \sin C + \sin B \cos C)}{\sin B} 2 a = \frac{(b \cos B \sin C + b \sin B \cos C)}{\sin B} + \frac{(c \cos B \sin C + c \sin B \cos C)}{\sin B}$

Step 7. Simplify the above equation

$2 a = \frac{b \cos B \sin C}{\sin B} + \frac{b \sin B \cos C}{\sin B} + \frac{c \cos B \sin C}{\sin C} + \frac{c \sin B \cos C}{\sin C} 2 a = \frac{b \cos B \sin C}{\sin B} + b \cos C + c \cos B + \frac{c \sin B \cos C}{\sin C} - - - - (1)$

Step 8. Use the law of Sine to rewrite bcosBsinCsinB

$\frac{b \cos B \sin C}{\sin B} = \frac{c \cos B \sin C}{\sin C} [S I n c e \frac{b}{\sin B} = \frac{c}{\sin C}] = c \cos B$

Step 9. Use the law of Sine to rewrite csinBcosCsinC

$\frac{c \sin B \cos C}{\sin C} = \frac{b \sin B \cos C}{\sin B} = b \cos C$

Step 10. Plug these equations into the equation (1)

$2 a = c \cos B + b \cos C + c \cos B + b \cos C 2 a = 2 b \cos C + 2 c \cos B a = b \cos C + c \cos B$

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91影视

For any triangle, derive the formula $a = b \cos C + c \cos B$
$[H i n t : U s e t h e f a c t t h a t \sin A = \sin (180^{鈭�} - B - C)]$

Short Answer

Step by step solution

Step 1. Given Information

Step 2. Rewrite the law of Sines for a and A, b and B.

Step 3. Rewrite law of Sines for a and A, c and C

Step 4. Add two equations

Step 5. Write the equation for Sine

Step 6. Plug the value of sinA into 2a=b·sinAsinB+c·sinAsinC

Step 7. Simplify the above equation

Step 8. Use the law of Sine to rewrite bcosBsinCsinB

Step 9. Use the law of Sine to rewrite csinBcosCsinC

Step 10. Plug these equations into the equation (1)

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91影视

For any triangle, derive the formula a=bcosC+ccosBHint:UsethefactthatsinA=sin180鈭�-B-C

Short Answer

Step by step solution

Step 1. Given Information

Step 2. Rewrite the law of Sines for a and A, b and B.

Step 3. Rewrite law of Sines for a and A, c and C

Step 4. Add two equations

Step 5. Write the equation for Sine

Step 6. Plug the value of sinA into 2a=b·sinAsinB+c·sinAsinC

Step 7. Simplify the above equation

Step 8. Use the law of Sine to rewrite bcosBsinCsinB

Step 9. Use the law of Sine to rewrite csinBcosCsinC

Step 10. Plug these equations into the equation (1)

One App. One Place for Learning.

Most popular questions from this chapter

Recommended explanations on Math Textbooks

Probability and Statistics

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Pure Maths

Study anywhere. Anytime. Across all devices.

For any triangle, derive the formula $a = b \cos C + c \cos B$
$[H i n t : U s e t h e f a c t t h a t \sin A = \sin (180^{鈭�} - B - C)]$