In right triangle ABC, right angled at C, M is the mid-point of hypotenuse AB. C is joined to M and produced to a point D such that DM = CM. Point D is joined to point B (see Fig. 7.23). Show that:
(i) ∆ AMC ≅ ∆ BMD
(ii) ∠ DBC is a right angle.
(iii) ∆ DBC ≅ ∆ ACB (iv) CM = \(\frac{1}{2}\) AB
In right triangle ABC, right angled at C, M is the mid-point of hypotenuse AB. C is joined to M and produced to a point D such that DM = CM. Point D is joined to point B (see Fig. 7.23). Show that:
(i) ∆ AMC ≅ ∆ BMD
(ii) ∠ DBC is a right angle.
(iii) ∆ DBC ≅ ∆ ACB (iv) CM = \(\frac{1}{2}\) AB
Solution and Explanation
(i) In ∆AMC and ∆BMD,
AM = BM (M is the mid-point of AB)
∠AMC = ∠BMD (Vertically opposite angles)
CM = DM (Given)
∠∆AMC ∠∆BMD (By SAS congruence rule)
∴ AC = BD (By CPCT) And,
∠ACM = ∠BDM (By CPCT)
(ii) ACM = BDM
However, ACM and BDM are alternate interior angles. Since alternate angles are equal, It can be said that DB || AC
∠DBC + ∠ACB = 180º (Co-interior angles)
∠DBC + 90º = 180º
∠DBC = 90º
(iii) In ∆DBC and ∆ACB,
DB = AC (Already proved)
∠DBC = ∠ACB (Each 90º)
BC = CB (Common)
∠∆DBC ∆ACB (SAS congruence rule)
(iv) ∆DBC ∆ACB
∠AB = ∠DC (By CPCT)
∠AB = 2 CM
∴ CM= \(\frac{1}{2}\) AB
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