pls solve question 5 pls pls pls
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smritisingh26:
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Given AD, BE and CF are the medians of ΔABC.
We have to prove that: (1) AD + BE > CF
(1) AD + BE > CF
(2) BE + CF > AD
(3) AD + CF > BE
Construction: Produce AD to H, such that AG = GH
Join BH and CH
ΔABH, F is the mid-point of AB and G is the ∴FG||BH (Mid-point theorem)
So, FG || BH (Mid-point theorem)
Hense GC || BH ...............1
Similarly, BG || HC ...........2
From 1 and 2, we get
BGCH is a parallelogram (Both pair of opposite sides) So, BH = CG (3) (Opposite sides of parallelogram are In ΔBGH,
So, BH = CG ............3 (Opposite sides of parallelogram are equal)
In ΔBGH,
BG + GH > BH (Sum of any two sides of a triangle is always greater than the third side)
=> BG + AG > CG (GH = AG and BH = CG)
Similarly, BE + CF > AD and AD + CF > BE
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We have to prove that: (1) AD + BE > CF
(1) AD + BE > CF
(2) BE + CF > AD
(3) AD + CF > BE
Construction: Produce AD to H, such that AG = GH
Join BH and CH
ΔABH, F is the mid-point of AB and G is the ∴FG||BH (Mid-point theorem)
So, FG || BH (Mid-point theorem)
Hense GC || BH ...............1
Similarly, BG || HC ...........2
From 1 and 2, we get
BGCH is a parallelogram (Both pair of opposite sides) So, BH = CG (3) (Opposite sides of parallelogram are In ΔBGH,
So, BH = CG ............3 (Opposite sides of parallelogram are equal)
In ΔBGH,
BG + GH > BH (Sum of any two sides of a triangle is always greater than the third side)
=> BG + AG > CG (GH = AG and BH = CG)
Similarly, BE + CF > AD and AD + CF > BE
Hope its helpful to you if yes then mark this answer as brainliest
please follow back me
Answered by
2
Given: AD, BE and CF are the medians of ΔABC.
To prove: (1) AD + BE > CF
(2) BE + CF > AD
(3) AD + CF > BE
Construction: Produce AD to H, such that AG = GH.
Join BH and CH
Proof: In ΔABH, F is the mid-point of AB and G is the mid point of AH.
∴FG||BH (Mid-point theorem)
∴ GC||BH (1)
Similarly, BG||HC (2)
From (1) and (2), we get
BGCH is a parallelogram (Both pair of opposite sides are parallel)
∴ BH = CG (3) (Opposite sides of parallelogram are equal)
In ∆BGH,
BG + GH > BH (Sum of any to sides of a triangle is always greater than the third side)
⇒ BG + AG > CG (GH = AG and BH = CG)
Similarly, BE + CF > AD and AD + CF > BE.
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