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In the figure (ii) given below, AB || DC and AB = 2DC. If AD = 3 cm, BC = 4 cm and AD, BC produced meet at E, find

(i) ED

(ii) BE

(iii) area of △EDC : area of trapezium ABCD.

In the figure (ii) given below, AB || DC and AB = 2DC. If AD = 3 cm, BC = 4 cm and AD, BC produced meet at E, find (i) ED (ii) BE (iii) area of △EDC : area of trapezium ABCD. Similarity, ML Aggarwal Understanding Mathematics Solutions ICSE Class 10.

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Answer

(i) Given, AB = 2DC or, ABDC=21.\dfrac{AB}{DC} = \dfrac{2}{1}.

Considering △AEB and △EDC.

∠E = ∠E (Common angles)

∠EDC = ∠EAB (Corresponding angles are equal)

Hence, by AA axiom △AEB ~ △EDC.

Since triangles are similar, hence the ratio of the corresponding sides will be equal

AEED=ABDCAD+EDED=213+EDED=213+ED=2EDED=3.\therefore \dfrac{AE}{ED} = \dfrac{AB}{DC} \\[1em] \Rightarrow \dfrac{AD + ED}{ED} = \dfrac{2}{1} \\[1em] \Rightarrow \dfrac{3 + ED}{ED} = \dfrac{2}{1} \\[1em] \Rightarrow 3 + ED = 2ED \\[1em] \Rightarrow ED = 3.

Hence, the length of ED = 3 cm.

(ii) Since, △AEB ~ △EDC. Hence the ratio of the corresponding sides will be equal

BEEC=ABDCBC+ECEC=214+ECEC=214+EC=2ECEC=4.\therefore \dfrac{BE}{EC} = \dfrac{AB}{DC} \\[1em] \Rightarrow \dfrac{BC + EC}{EC} = \dfrac{2}{1} \\[1em] \Rightarrow \dfrac{4 + EC}{EC} = \dfrac{2}{1} \\[1em] \Rightarrow 4 + EC = 2EC \\[1em] \Rightarrow EC = 4.

BE = BC + EC = 4 + 4 = 8 cm.

Hence, the length of BE = 8 cm.

(iii) We know that, the ratio of the areas of two similar triangles is equal to the ratio of the square of their corresponding sides.

Area of △EDCArea of △AEB=DC2AB2Area of △EDCArea of △AEB=1222Area of △EDCArea of △AEB=14Area of △EDCArea of △EDC + Area of ⏢ABCD=144Area of △EDC=Area of △EDC + Area of ⏢ABCD4Area of △EDCArea of △EDC= Area of ⏢ABCD3 Area of △EDC= Area of ⏢ABCD Area of △EDC Area of ⏢ABCD=13.\therefore \dfrac{\text{Area of △EDC}}{\text{Area of △AEB}} = \dfrac{DC^2}{AB^2} \\[1em] \Rightarrow \dfrac{\text{Area of △EDC}}{\text{Area of △AEB}} = \dfrac{1^2}{2^2} \\[1em] \Rightarrow \dfrac{\text{Area of △EDC}}{\text{Area of △AEB}} = \dfrac{1}{4} \\[1em] \Rightarrow \dfrac{\text{Area of △EDC}}{\text{Area of △EDC + Area of ⏢ABCD}} = \dfrac{1}{4} \\[1em] \Rightarrow 4 \text{Area of △EDC} = \text{Area of △EDC + Area of ⏢ABCD} \\[1em] \Rightarrow 4 \text{Area of △EDC} - \text{Area of △EDC} = \text { Area of ⏢ABCD} \\[1em] \Rightarrow 3 \text{ Area of △EDC} = \text { Area of ⏢ABCD} \\[1em] \Rightarrow \dfrac{\text{ Area of △EDC}}{\text { Area of ⏢ABCD}} = \dfrac{1}{3}.

Hence, the ratio of area of △EDC : area of trapezium ABCD = 1 : 3.

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