Proof the Heron's Formula
Answers
Answer
Step-by-step explanation:
not come in exam so not required
Proof Using Pythagoras Theorem
Area of a Triangle with 3 Sides
Area of ∆ABC is given by
Heron's Formula Derivation
A = 1/2 bh _ _ _ _ (i)
Draw a perpendicular BD on AC
Consider a ∆ADB
x2 + h2 = c2
x2 = c2 − h2—(ii)
⇒x = √(c2−h2)−−−−−−—(iii)
Consider a ∆CDB,
(b−x)2 + h2 = a2
(b−x)2 = a2 − h2
b2 − 2bx + x2 = a2–h2
Substituting the value of x and x2 from equation (ii) and (iii), we get
b2 – 2b√(c2−h2)+ c2−h2 = a2 − h2
b2 + c2 − a2 = 2b√(c2 − h2)
Squaring on both sides, we get;
(b2+c2–a2)2 = 4b2(c2−h2)
(b2+c2−a2)24b2=c2–h2
h2 = c2 − (b2+c2−a2)24b2
h2 = 4b2c2–(b2+c2−a2)24b2
h2 = (2bc)2−(b2+c2−a2)24b2
h2 = [2bc+(b2+c2−a2)][2bc−(b2+c2−a2)]4b2
h2 = [(b2+2bc+c2)−a2][a2−(b2−2bc+c2)]4b2
h2 = [(b+c)2–a2].[a2−(b−c)2]4b2
h2 = [(b+c)+a][(b+c)−a].[a+(b−c)][a−(b−c)]4b2
h2 = (a+b+c)(b+c−a)(a+c−b)(a+b−c)4b2
The perimeter of a ∆ABC is
P= a+b+c
⇒ h2 = P(P–2a)(P–2b)(P−2c)4b2
⇒ h =P(P–2a)(P–2b)(P−2c)−−−−−−−−−−−−−−−−−−−−√2b
Substituting the value of h in equation (i), we get;
A = 12bP(P–2a)(P–2b)(P−2c)√2b
A = 14(P(P–2a)(P–2b)(P−2c)−−−−−−−−−−−−−−−−−−−−√
A = 116P(P–2a)(P–2b)(P−2c)−−−−−−−−−−−−−−−−−−−−−−√
A = P2(P–2a2)(P–2b2)(P−2c2)−−−−−−−−−−−−−−−−−−−√
Semi perimeter(S) = perimeter2 = P2
⇒ A = S(S–a)(S–b)(S–c)−−−−−−−−−−−−−−−√
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