In an equilateral triangle ABC,D is a point on the side BC such that BD = 1/3BC .Prove that 9AD square=7AB square
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Given that :-
In Δ ABC is an equilateral triangle.
D is point on BC such that BD =BC.
To prove:-
9 AD² = 7 AB²
Construction: Draw AE ⊥ BC.
Proof :-
In a ΔABC and ΔACE
AB = AC ( given)
AE = AE (common)
∠AEB = ∠AEC = (Right angle)
Hence ΔABC ≅ ΔACE (By RHS Creation)
Again,
BE = EC (By C.P.C.T)
BE = EC = BC²
In a right angled ΔADE
AD²= AE2 + DE² ---(1)
In a right angled ΔABE
AB² = AE² + BE² ---(2)
From equation (1) and (2) ;
=) AD² - AB² = DE² - BE².
=) AD² - AB² = (BE – BD)² - BE².
= ) AD² - AB² = (BC / 2 – BC/3)² – (BC/2)²
= AD2 - AB2 = ((3BC – 2BC/6)² – (BC/2)²
= AD² - AB² = (BC² / 36 – BC2 / 4 )
( we know that In a equilateral triangle, All sides are equal to each other)
AB = BC = AC
= ) AD²= AB² + AB²/ 36 – AB² / 4
= )AD² = (36AB² + AB²– 9AB²) / 36
= ) AD² = (28AB²) / 36
=) AD² = (7AB²) / 9
= ) 9AD² = 7AB² proved
Hope it helps you
Given that :-
In Δ ABC is an equilateral triangle.
D is point on BC such that BD =BC.
To prove:-
9 AD² = 7 AB²
Construction: Draw AE ⊥ BC.
Proof :-
In a ΔABC and ΔACE
AB = AC ( given)
AE = AE (common)
∠AEB = ∠AEC = (Right angle)
Hence ΔABC ≅ ΔACE (By RHS Creation)
Again,
BE = EC (By C.P.C.T)
BE = EC = BC²
In a right angled ΔADE
AD²= AE2 + DE² ---(1)
In a right angled ΔABE
AB² = AE² + BE² ---(2)
From equation (1) and (2) ;
=) AD² - AB² = DE² - BE².
=) AD² - AB² = (BE – BD)² - BE².
= ) AD² - AB² = (BC / 2 – BC/3)² – (BC/2)²
= AD2 - AB2 = ((3BC – 2BC/6)² – (BC/2)²
= AD² - AB² = (BC² / 36 – BC2 / 4 )
( we know that In a equilateral triangle, All sides are equal to each other)
AB = BC = AC
= ) AD²= AB² + AB²/ 36 – AB² / 4
= )AD² = (36AB² + AB²– 9AB²) / 36
= ) AD² = (28AB²) / 36
=) AD² = (7AB²) / 9
= ) 9AD² = 7AB² proved
Hope it helps you
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