Question

Prove that in any parallelogram, the sum of the squares of all sides is equal to the sum of the squares of the diagonals.

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Answer 1

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In parallelogram ABCD,

AB = CD, BC = AD Draw perpendiculars from C and D on AB as shown.

In right angled ΔAEC,

AC² = AE² + CE²

[By Pythagoras theorem]

⇒ AC² = (AB + BE)² + CE²

⇒ AC²= AB² + BE2 + 2AB × BE + CE² → (1)

From the figure CD = EF (Since CDFE is a rectangle)

But CD= AB

⇒ AB = CD = EF

Also CE = DF (Distance between two parallel lines)

ΔAFD ≅ ΔBEC (RHS congruence rule)

⇒ AF = BE

Consider right angled ΔDFB

BD² = BF² + DF² [By Pythagoras theorem]

= (EF – BE)² + CE² [Since DF = CE]

= (AB – BE)2 + CE² [Since EF = AB]

⇒ BD² = AB² + BE² – 2AB × BE + CE² → (2)

Add (1) and (2),

we get AC² + BD² = (AB² + BE² + 2AB × BE + CE²)+ (AB² + BE² – 2AB × BE + CE²)

= 2AB² + 2BE² + 2CE² AC² + BD²

= 2AB² + 2(BE² + CE²) → (3)

From right angled ΔBEC,

BC² = BE² + CE² [By Pythagoras theorem]

Hence equation (3) becomes,

AC² + BD² = 2AB² + 2BC²

= AB² + AB² + BC2 + BC²

= AB² + CD² + BC² + AD²

∴ AC² + BD² = AB² + BC² + CD² + AD²

Thus the sum of the squares of the diagonals of a parallelogram is equal to the sum of the squares of its sides.

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Answer 2

Answer:

In parallelogram ABCD, AB = CD, BC = AD

Draw perpendiculars from C and D on AB as shown.

In right angled ΔAEC, AC2 = AE2 + CE2 [By Pythagoras theorem]

⇒ AC2 = (AB + BE)2 + CE2 ⇒ AC2 = AB2 + BE2 + 2 AB × BE + CE2 → (1) From the figure CD = EF (Since CDFE is a rectangle) But CD= AB

⇒ AB = CD = EF Also CE = DF (Distance between two parallel lines) ΔAFD ≅ ΔBEC (RHS congruence rule)

⇒ AF = BE Consider right angled ΔDFB BD2 = BF2 + DF2 [By Pythagoras theorem]

= (EF – BE)2 + CE2 [Since DF = CE]

= (AB – BE)2 + CE2 [Since EF = AB]

⇒ BD2 = AB2 + BE2 – 2 AB × BE + CE2

→ (2) Add (1) and (2),

we get AC2 + BD2 = (AB2 + BE2 + 2 AB × BE + CE2) + (AB2 + BE2 – 2 AB × BE + CE2)

= 2AB2 + 2BE2 + 2CE2 AC2 + BD2 = 2AB2 + 2(BE2 + CE2)

→ (3) From right angled ΔBEC, BC2 = BE2 + CE2 [By Pythagoras theorem]

Hence equation (3) becomes, AC2 + BD2 = 2AB2 + 2BC2

= AB2 + AB2 + BC2 + BC2

= AB2 + CD2 + BC2 + AD2

∴ AC2 + BD2 = AB2 + BC2 + CD2 + AD2

Thus the sum of the squares of the diagonals of a parallelogram is equal to the sum of the squares of its sides