Similarity
Class 10th Mathematics Part 2 MHB Solution
- Base of a triangle is 9 and height is 5. Base of another triangle is 10 and height is…
- If figure 1.13 BC ⊥ AB, AD ⊥ AB, BC = 4, AD = 8, then find a (deltaabc)/a (deltaadb)…
- In adjoining figure 1.14 seg PS seg RQ , seg QT seg PR. If RQ = 6, PS = 6 and PR = 12,…
- In adjoining figure, AP ⊥ BC, AD || BC, then find A(ΔABC) : A (ΔBCD) n…
- In adjoining figure PQ BC, AD BC then find following ratios. (i) a (deltapqb)/a…
- Given below are some triangles and lengths of line segments. Identify in which figures,…
- In Δ PQR, PM = 15, PQ = 25, PR = 20, NR = 8. State whether line NM is parallel to side…
- In Δ MNP, NQ is a bisector of ∠N. If MN = 5, PN = 7 MQ = 2.5 then find QP.…
- Measures of some angles in the figure are given. Prove that ap/pb = aq/qc…
- In trapezium ABCD, side AB || side PQ || side DC, AP = 15, PD = 12, QC = 14, find BQ.…
- Find QP using given information in the figure.
- In figure 1.41, if AB || CD || FE then find x and AE.
- In Δ LMN, ray MT bisects ∠ LMN If LM = 6, MN = 10, TN = 8, then find LT.…
- In Δ ABC, seg BD bisects ∠ ABC. If AB = x, BC = x + 5, AD = x - 2, DC = x + 2, then…
- In the figure 1.44, X is any point in the interior of triangle. Point X is joined to…
- In ΔABC, ray BD bisects ∠ABC and ray CE bisects ∠ACB. If seg AB ≅ seg AC then prove…
- In figure 1.55, ∠ABC = 75°, ∠EDC = 75° state which two triangles are similar and by…
- Are the triangles in figure 1.56 similar? If yes, by which test?
- As shown in figure 1.57, two poles of height 8 m and 4 m are perpendicular to the…
- In ΔABC, AP ⊥ BC, BQ ⊥ AC B- P-C, A-Q - C then prove that, ΔCPA ~ ΔCQB. If AP = 7, BQ =…
- Given : In trapezium PQRS, side PQ || side SR, AR = 5AP, AS = 5AQ then prove that, SR =…
- In trapezium ABCD, (Figure 1.60) side AB || side DC, diagonals AC and BD intersect in…
- □ ABCD is a parallelogram point E is on side BC. Line DE intersects ray AB in point T.…
- In the figure, seg AC and seg BD intersect each other in point P and ap/cp = bp/dp…
- In the figure, in ΔABC, point D on side BC is such that, ∠BAC = ∠ADC. Prove that, CA^2…
- The ratio of corresponding sides of similar triangles is 3 : 5; then find the ratio of…
- If ΔABC ~ ΔPQR and AB: PQ = 2:3, then fill in the blanks. a (deltaabc)/a (deltapqr) =…
- If ΔABC ~ ΔPQR, A (ΔABC) = 80, A(ΔPQR) = 125, then fill in the blanks. a (deltaabc)/a…
- ΔLMN ~ ΔPQR, 9 × A(ΔPQR) = 16 × A (ΔLMN). If QR = 20 then find MN.…
- Areas of two similar triangles are 225 sq.cm 81 sq.cm. If a side of the smaller…
- Δ ABC and ΔDEF are equilateral triangles. If A(ΔABC) : A(ΔDEF) = 1 : 2 and AB = 4, find…
- In figure 1.66, seg PQ || seg DE, A(Δ PQF) = 20 units, PF = 2 DP, then find A(DPQE) by…
- In Δ ABC and ΔPQR, in a one to one correspondence ab/qr = bc/pr = ca/pq then Select…
- If in ΔDEF and ΔPQR, ∠D ≅ ∠Q, ∠R ≅ ∠E then which of the following statements is false?…
- In Δ and ΔDEF ∠B = ∠E, ∠F = ∠C and AB = 3DE then which of the statements regarding the…
- ΔABC and ΔDEF are equilateral triangles, A(ΔABC) : A(ΔDEF) = 1 : 2. If AB = 4 then…
- In figure 1.71, seg XY || seg BC, then which of the following statements is true? x x…
- In Δ ABC, B - D - C and BD = 7, BC = 20 then find following ratios. (1) a (deltaabd)/a…
- Ratio of areas of two triangles with equal heights is 2 : 3. If base of the smaller…
- In figure 1.73, ∠ABC = ∠DCB = 90° AB = 6, DC = 8 then a (deltaabc)/a (deltadcb) = ?…
- In figure 1.74, PM = 10 cm A(Δ PQS) = 100 sq.cm A (ΔQRS) = 110 sq.cm then find NR.…
- ΔMNT ~ ΔQRS. Length of altitude drawn from point T is 5 and length of altitude drawn…
- In figure 1.75, A - D - C and B - E - C seg DE || side AB If AD = 5, DC = 3, BC = 6.4…
- In the figure 1.76, seg PA, seg QB, seg RC and seg SD are perpendicular to line AD. AB…
- In ΔPQR seg PM is a median. Angle bisectors of ∠PMQ and ∠PMR intersect side PQ and side…
- In fig 1.78, bisectors of ∠B and ∠C of ΔABC intersect each other in point X. Line AX…
- In □ABCD, seg AD || seg BC. Diagonal AC and diagonal BD intersect each other in point…
- In fig 1.80, XY || seg AC. If 2AX = 3BX and XY = 9. Complete the activity to find the…
- In figure 1.81, the vertices of square DEFG are on the sides of ΔABC, ∠A = 90°. Then…
Practice Set 1.1
Question 1.Base of a triangle is 9 and height is 5. Base of another triangle is 10 and height is 6. Find the ratio of areas of these triangles.
Answer:
We know that area of triangle = 
× Base× Height
⇒ Area (triangle 1) = ×9× 5
= 
⇒ Area (triangle 2) = ×10× 6
= 30
∴ the ratio of areas of these triangles will be = 
= 
= 
= 
Question 2.
If figure 1.13 BC ⊥ AB, AD ⊥ AB, BC = 4, AD = 8, then find 
Answer:
Here,ΔABC and ΔADB has common Base.
∴ 
(PROPERTY: Areas of triangles with equal bases are proportional to their corresponding heights.)
⇒ 
= 
=
Question 3.
In adjoining figure 1.14 seg PS ⊥ seg RQ , seg QT ⊥ seg PR. If RQ = 6, PS = 6 and PR = 12, then find QT.
Answer:
Considering, Area of (ΔPQR) with base QR
⇒ PS will be the Height
Now, consider the Area of (ΔPQR) with base PR
⇒ QT will be the Height
∵ , the triangle is the same
⇒ the area will be the same irrespective of the base taken.
And we know that area of triangle = × Base× Height
⇒ ×QR×PS
= ×PR×QT
⇒ ×6×6
= ×12×QT
⇒ QT = 3
Question 4.
In adjoining figure, AP ⊥ BC, AD || BC, then find A(ΔABC) : A (ΔBCD)
Answer:
We can re-draw the fig.1.15(as shown above) where we add DO
which will be height of ΔBCD.
Now, 
(PROPERTY: Areas of triangles with equal bases are proportional to their corresponding heights.)
⇒
⇒ 
(∵ the distance between the two parallel lines is always equal ⇒ AP = DO)
⇒
= 1:1
Question 5.
In adjoining figure PQ ⊥ BC, AD ⊥ BC then find following ratios.
(i) 
(ii) 
(iii) 
(iv) 
Answer:
We know that area of triangle = × Base× Height
(i)
(PROPERTY:Areas of triangles with equal heights are proportional to their corresponding bases.)
(ii)
(PROPERTY: Areas of triangles with equal bases are proportional to their corresponding heights.)
(iii)
(PROPERTY:Areas of triangles with equal heights are proportional to their corresponding bases.)
(iv)
= 
Practice Set 1.2
Question 1.Given below are some triangles and lengths of line segments. Identify in which figures, ray PM is the bisector of ∠OPR.
Answer:
Theorem: The bisector of an angle of a triangle divides the side opposite to the angle in the ratio of the remaining sides.
Therefore, we’ll find the ratio for all the triangle.Hence, for
(1) 
= 2.33
And 
= 2.33
⇒ 
⇒ In (1), ray PM is a bisector.
(2)
= 0.75
And 
= 0.7
⇒ 
⇒ In (2), ray PM is not a bisector.
(3)
= 1.1
And 
= 1.11
⇒ 
⇒ In (3), ray PM is a bisector.
Question 2.
In Δ PQR, PM = 15, PQ = 25, PR = 20, NR = 8. State whether line NM is parallel to side RQ. Give reason.
Answer:
By Converse of basic Proportionality Theorem
(Theorem: If a line divides any two sides of a triangle in the same ratio, then the line is parallel to the third side.)
⇒ If
, then line NM is parallel to side RQ.
∴ we’ll check if.
⇒ 
= 
= 
= 
And,
= 
= 
=
⇒ 
, therefore line NM || side RQ
Question 3.
In Δ MNP, NQ is a bisector of ∠N. If MN = 5, PN = 7 MQ = 2.5 then find QP.
Answer:
Theorem: The bisector of an angle of a triangle divides the side opposite to the angle in the ratio of the remaining sides.
⇒ 
⇒ 
⇒ QP× 5 = 2.5× 7
⇒ QP = 
⇒ QP = 3.5
Question 4.
Measures of some angles in the figure are given. Prove that 
Answer:
Here, PQ||BC (∵ ∠ APQ≅ ∠ ABC)
(PROPERTY: If a transversal intersects two lines so that corresponding angles are congruent, then the lines are parallel)
∴ By Basic Proportionality Theorem
(Theorem : If a line parallel to a side of a triangle intersects the remaining sides in two distinct points, then the line divides the sides in the same proportion.)
⇒ 
Question 5.
In trapezium ABCD, side AB || side PQ || side DC, AP = 15, PD = 12, QC = 14, find BQ.
Answer:
By Basic Proportionality Theorem
(Theorem : If a line parallel to a side of a triangle intersects the remaining sides in two distinct points, then the line divides the sides in the same proportion.)
⇒ 
⇒ 
⇒ BQ = 
⇒ BQ = 17.5
Question 6.
Find QP using given information in the figure.
Answer:
Theorem: The bisector of an angle of a triangle divides the side opposite to the angle in the ratio of the remaining sides.
And ∵ NQ is angle bisector of ∠N
⇒
⇒
⇒ QP = 
⇒ QP = 22.4
Question 7.
In figure 1.41, if AB || CD || FE then find x and AE.
Answer:
Theorem: The ratio of the intercepts made on a transversal by three parallel lines is equal to the ratio of the corresponding intercepts made on any other transversal by the same parallel lines.
⇒ 
⇒ 
⇒ x = 
⇒ x = 6
Now,AE = AC + CE
= 12 + x
= 12 + 6
⇒ AE = 18
Question 8.
In Δ LMN, ray MT bisects ∠ LMN If LM = 6, MN = 10, TN = 8, then find LT.
Answer:
Theorem: The bisector of an angle of a triangle divides the side opposite to the angle in the ratio of the remaining sides.
⇒ 
⇒ LT = 
⇒ LT = 
⇒ LT = 4.8
Question 9.
In Δ ABC, seg BD bisects ∠ ABC. If AB = x, BC = x + 5, AD = x – 2, DC = x + 2, then find the value of x.
Answer:
Theorem: The bisector of an angle of a triangle divides the side opposite to the angle in the ratio of the remaining sides.
⇒ 
⇒ 
⇒ x(x + 2) = (x-2)(x + 5)
⇒ x2 + 2x = x2-2x + 5x-10
⇒ x2 + 2x-x2 + 2x-5x + 10 = 0
⇒ x = 10
Question 10.
In the figure 1.44, X is any point in the interior of triangle. Point X is joined to vertices of triangle. Seg PQ || seg DE, seg QR || seg EF. Fill in the blanks to prove that, seg PR || seg DF.
Proof : IN 
(Basic proportionality theorem)
In 
(converse of basic proportionality theorem)
Answer:
Proof: In ΔXDE, PQ||DE….. (Given)
∴ 
…..(I)
(Basic proportionality theorem)
In ΔXDE, QR||EF …….(Given)
∴ 
………(II) (Basic Proportionality Theorem)
∴ 
……… from (I) and (II)
∴ seg PR||Seg DE ………..
(converse of basic proportionality theorem)
Question 11.
In ΔABC, ray BD bisects ∠ABC and ray CE bisects ∠ACB. If seg AB ≅ seg AC then prove that ED || BC.
Answer:
PROOF:
Theorem: The bisector of an angle of a triangle divides the side opposite to the angle in the ratio of the remaining sides.
⇒ 
……(1)
and 
…..(2) (∵ , BD and CE are angle bisectors of ∠B and ∠C respectively.)
Now, ∵ seg AB ≅ seg AC
⇒ AB = AC
⇒ 
⇒ R.H.S of (1) & (2) are equal.
⇒ L.H.S of (1) & (2) will be equal.
∴ Equating L.H.S of (1) &(2), we get-
⇒ 
⇒ ED||BC (By converse basic proportionality theorem)
Practice Set 1.3
Question 1.In figure 1.55, ∠ABC = 75°, ∠EDC = 75° state which two triangles are similar and by which test? Also write the similarity of these two triangles by a proper one to one correspondence.
Answer:
With one- to-one correspondence ABC ↔ EDC
∵ ∠ABC ≅ ∠EDC = 75°
∠ACB ≅ ∠ECD (Is common in both the triangles ABC and EDC)
⇒ Δ ABC~Δ EDC ………(By AA Test)
Question 2.
Are the triangles in figure 1.56 similar? If yes, by which test?
Answer:
In Δ PQR and Δ LMN
And 
And 
⇒ 
⇒ ΔPQR~ΔLMN …………(By SSS Similarity Test)
Question 3.
As shown in figure 1.57, two poles of height 8 m and 4 m are perpendicular to the ground. If the length of shadow of smaller pole due to sunlight is 6 m then how long will be the shadow of the bigger pole at the same time?
Answer:
∵ the shadows are measured at the same time
⇒ angle of of elevation will be equal for both the pole
⇒ Δ PQR~Δ ABC ………(By AA Test)
⇒ 
⇒ BC
⇒ x = 
⇒ x = 12 m
Question 4.
In ΔABC, AP ⊥ BC, BQ ⊥ AC B- P-C, A-Q - C then prove that, ΔCPA ~ ΔCQB. If AP = 7, BQ = 8, BC = 12 then find AC.
Answer:
From fig.
⇒ ∠ APC≅ ∠ BQC (∵ AP⊥ BC and BQ⊥ AC)
⇒ Also, ∠ ACP≅ ∠ BCQ (Common)
⇒ Δ CPA~Δ CQB (By AA Test)
⇒ 
⇒ AC = 
⇒AC = 
⇒AC = 10.5
Question 5.
Given : In trapezium PQRS, side PQ || side SR, AR = 5AP, AS = 5AQ then prove that, SR = 5PQ
Answer:
Given that, AR = 5AP and AS = 5AQ
⇒ 
= 5 ………(1)
And 
= 5……….(2)
⇒ 
And, ∠ SAR≅ ∠ QAP …… (opposite angles)
⇒ Δ SAR ~ Δ QAP …………(SAS Test of similarity)
⇒ 
(corresponding sides are proportional)
But, 
= 5
⇒ 
= 5
⇒ SR = 5PQ
Question 6.
In trapezium ABCD, (Figure 1.60) side AB || side DC, diagonals AC and BD intersect in point O. If AB = 20, DC = 6, OB = 15 then find OD.
Answer:
In Δ AOB and ΔCOD
⇒ ∠ AOB≅ ∠ COD (opposite angles)
⇒ ∠ CDO≅ ∠ ABO (Alternate angles ∵ AB||DC)
⇒ Δ AOB ~ Δ COD (By AA Test)
⇒ 
(corresponding sides are proportional)
⇒ OD = 
⇒ OD = 
⇒ OD = 4.5
Question 7.
□ ABCD is a parallelogram point E is on side BC. Line DE intersects ray AB in point T. Prove that DE × BE = CE × TE.
Answer:
In Δ CED and ΔBET
⇒ ∠ CED≅ ∠ BET (opposite angles)
⇒ ∠ CDE≅ ∠ BTE (Alternate angles)
(∵ AB||DC ⇒ BT||DC, as BT is extension to AB)
⇒ Δ CED ~ Δ BET (By AA Test)
⇒ 
(corresponding sides are proportional)
⇒ DE× BE = CE×TE
Question 8.
In the figure, seg AC and seg BD intersect each other in point P and 
Prove that, ΔABP ~ ΔCDP
Answer:
In Δ APB & Δ CPD
⇒ 
……(Given)
And, ∠APB = ∠DPC (vertically opposite angles)
⇒ Δ APB ~ Δ CPD (By SAS Test)
Question 9.
In the figure, in ΔABC, point D on side BC is such that, ∠BAC = ∠ADC.
Prove that, CA2 = CB × CD
Answer:
In Δ BAC & Δ ADC
⇒ ∠ BAC ≅ ∠ ADC ……(Given)
And, ∠ACB ≅ ∠DCA ……(common)
⇒ Δ BAC ~ Δ ADC (By AA Test)
⇒ 
(corresponding sides are proportional)
⇒ CA2 = CB×CD
Practice Set 1.4
Question 1.The ratio of corresponding sides of similar triangles is 3 : 5; then find the ratio of their areas.
Answer:
Theorem: When two triangles are similar, the ratio of areas of those triangles is equal to the ratio of the squares of their corresponding sides.
⇒ Ratio of areas = 32:52
⇒ Ratio of areas = 9 : 25
Question 2.
If ΔABC ~ ΔPQR and AB: PQ = 2:3, then fill in the blanks.
Answer:
∵ Δ ABC~Δ PQR and AB:PQ = 2:3
⇒ 
Question 3.
If ΔABC ~ ΔPQR, A (ΔABC) = 80, A(ΔPQR) = 125, then fill in the blanks.
Answer:
∵ Δ ABC~Δ PQR
⇒ 
(∵ A(Δ PQR) = 125 is given)
⇒ 
⇒ 
⇒ 
Question 4.
ΔLMN ~ ΔPQR, 9 × A(ΔPQR) = 16 × A (ΔLMN). If QR = 20 then find MN.
Answer:
∵ Δ ABC~Δ PQR
⇒ Given that, 9× A(Δ ABC) = 16× A(Δ PQR)
⇒ 
And,
⇒ 
⇒ 
⇒ MN2 = 
⇒ MN = 15
Question 5.
Areas of two similar triangles are 225 sq.cm & 81 sq.cm. If a side of the smaller triangle is 12 cm, then find corresponding side of the bigger triangle.
Answer:
Let area of one(bigger) triangle be ‘A’, other(smaller) triangle be ‘B’,corresponding side of smaller triangle be ‘a’ and bigger triangle be ‘b’.
⇒ 
(By theorem)
And a = 12cm, A = 225 sq.cm, B = 81 sq.cm ……(Given)
⇒ 
⇒ b2 = 
⇒ b = √400
⇒ b = 20 cm
Question 6.
Δ ABC and ΔDEF are equilateral triangles. If A(ΔABC) : A(ΔDEF) = 1 : 2 and AB = 4, find DE.
Answer:
We know that, all the angles of an equilateral triangles are equal, i.e., 60°.
⇒ Δ ABC~Δ DEF ……(By AAA Similarity Test)
⇒ 
And,
(Given)
⇒ 
⇒ DE2 = 2× 42 (∵ AB = 4)
⇒ DE = √32
⇒DE = 4√2
Question 7.
In figure 1.66, seg PQ || seg DE, A(Δ PQF) = 20 units, PF = 2 DP, then find A(DPQE) by completing the following activity.
A(Δ PQF) = 20 units, PF = 2 DP, Let us assume DP = x. ∴ PF = 2x
In Δ FDE and Δ FPQ,
∠FDE ≅ ∠ .......... corresponding angles
∠FED ≅ ∠ ......... corresponding angles
∴ Δ FDE ~ Δ FPQ .......... AA test
Answer:
A(Δ PQF) = 20units,PF = 2DP,Let us assume DP = x,∴ PF = 2x
⇒ DF = DP + PF = x + 2x = 3x
In Δ FDE & Δ FPQ
∠ FDE ≅ ∠ FPQ (Corresponding angles)
∠ FEP ≅ ∠ FQP (Corresponding angles)
∴ Δ FDE~ Δ FPQ (AA Test)
∴ 
A(Δ FDE) = 
A(ΔFPQ) = × 20 = 45
A(□DPQE) = A (Δ FDE) - A(ΔFPQ)
= 45-20
= 25 sq.unit.
Problem Set 1
Question 1.Select the appropriate alternative.
In Δ ABC and ΔPQR, in a one to one correspondence 
then
A. Δ PQR ~ Δ ABC
B. Δ PQR ~ Δ CAB
C. Δ CBA ~ Δ PQR
D. Δ BCA ~ Δ PQR
Answer:
∵ 
⇒ Δ CAB~Δ PQR
(A) doesn’t match the solution.
(C) doesn’t match the solution.
(D) doesn’t match the solution.
Question 2.
Select the appropriate alternative.
If in ΔDEF and ΔPQR, ∠D ≅ ∠Q, ∠R ≅ ∠E then which of the following statements is false?
A. 
B. 
C. 
D. 
Answer:
In Δ DEF & Δ PQR
∠ D≅ ∠ Q and ∠ R≅ ∠ E (Given)
⇒ Δ DEF ~ Δ PQR
⇒ 
(corresponding sides are proportional)
(A) is matching the solution, hence can’t be false.
(C) is matching the solution, hence can’t be false.
(D) is matching the solution, hence can’t be false.
Question 3.
Select the appropriate alternative.
In Δ and ΔDEF ∠B = ∠E, ∠F = ∠C and AB = 3DE then which of the statements regarding the two triangles is true?
A. The triangles are not congruent and not similar
B. The triangles are similar but not congruent.
C. The triangles are congruent and similar.
D. None of the statements above is true.
Answer:
In Δ ABC & Δ DEF
∠ B≅ ∠ E and ∠ C≅ ∠ F (Given)
⇒ Δ ABC ~ Δ DEF (By AA Test)
⇒ The triangles are similar.
And, Δ ABC ≅ Δ DEF, if AB = DE.
But, given that - AB = 3DE.
⇒ The triangles are not congruent.
(A) doesn’t match the solution.
(C) doesn’t match the solution.
(D) doesn’t match the solution.
Question 4.
Select the appropriate alternative.
ΔABC and ΔDEF are equilateral triangles, A(ΔABC) : A(ΔDEF) = 1 : 2. If AB = 4 then what is length of DE?
A. 
B. 4
C. 8
D. 
Answer:
Solution: We know that, all the angles of an equilateral triangles are equal, i.e., 60°.
⇒ Δ ABC~Δ DEF ……(By AAA Similarity Test)
⇒
And, (Given)
⇒
⇒ DE2 = 2× 42 (∵ AB = 4)
⇒ DE = √32
⇒DE = 4√2
(A) doesn’t match the solution.
(B) doesn’t match the solution.
(C) doesn’t match the solution.
Question 5.
Select the appropriate alternative.
In figure 1.71, seg XY || seg BC, then which of the following statements is true?
A. 
B. 
C. 
D. 
Answer:
∵ segXY||segBC
⇒∠ AXY≅ ∠ ABC
And, ∠ XAY≅ ∠ BAC (Common)
⇒ Δ AXY~ Δ ABC (By AA Test)
⇒ 
(corresponding sides are proportional)
⇒ 
(B) doesn’t match the solution.
(C) doesn’t match the solution.
(D) doesn’t match the solution.
Question 6.
In Δ ABC, B - D – C and BD = 7, BC = 20 then find following ratios.
(1) 
(2) 
(3) 
Answer:
Theorem: When two triangles are similar, the ratio of areas of those triangles is equal to the ratio of the squares of their corresponding sides.
(1) 
= 
= 
= 
(2) 
= 
= 
(3) 
= 
= 
= 
Question 7.
Ratio of areas of two triangles with equal heights is 2 : 3. If base of the smaller triangle is 6 cm then what is the corresponding base of the bigger triangle?
Answer:
(PROPERTY:Areas of triangles with equal heights are proportional to their corresponding bases.)
⇒ 
⇒ 
⇒ base(bigger triangle) = 9 cm
Question 8.
In figure 1.73, ∠ABC = ∠DCB = 90° AB = 6, DC = 8 then 
Answer:
We know that, Area of triangle = × base× height
⇒ 
= 
= 
=
Question 9.
In figure 1.74, PM = 10 cm A(Δ PQS) = 100 sq.cm A (ΔQRS) = 110 sq.cm then find NR.
Answer:
We know that, Area of triangle = × base× height
⇒ 
⇒ 
⇒ 
⇒ NR = 11 cm
Question 10.
ΔMNT ~ ΔQRS. Length of altitude drawn from point T is 5 and length of altitude drawn from point S is 9. Find the ratio 
Answer:
= 
= 
Question 11.
In figure 1.75, A – D – C and B – E – C seg DE || side AB If AD = 5, DC = 3, BC = 6.4 then find BE.
Answer:
By Basic Proportionality Theorem-
⇒ 
⇒ 
⇒ 3x = 32-5x
⇒ 8x = 32
⇒ x = 4 = BE
Question 12.
In the figure 1.76, seg PA, seg QB, seg RC and seg SD are perpendicular to line AD.
AB = 60, BC = 70, CD = 80, PS = 280 then find PQ, QR and RS.
Answer:
(PROPERTY:If line AX || line BY || line CZ and line l and line m are their transversals then 
)
⇒ 
⇒ 
⇒ 
[1]
And 
⇒ 
⇒ 
[2]
And,PS = 280
⇒ PQ + QR + RS = 280 ……(3)
From [1] and [2], we have
From [1], 
From [2]
Question 13.
In ΔPQR seg PM is a median. Angle bisectors of ∠PMQ and ∠PMR intersect side PQ and side PR in points X and Y respectively. Prove that XY || QR.
Complete the proof by filling in the boxes. In ΔPMQ, ray MX is bisector of ∠PMQ.
.......... (I) theorem of angle bisector.
In ΔPMR, ray MY is bisector of ∠PMR. .......... (II) theorem of angle bisector.
But 
.......... M is the midpoint QR, hence MQ = MR.
∴ XY || QR .......... converse of basic proportionality theorem.
Answer:
∴
.......... (I) theorem of angle bisector.
AND
∴ 
.......... (II) theorem of angle bisector.
Question 14.
In fig 1.78, bisectors of ∠B and ∠C of ΔABC intersect each other in point X. Line AX intersects side BC in point Y. AB = 5, AC = 4, BC = 6 then find 
Answer:
By Bisector Theorem-
⇒ 
……(1)
⇒ And, 
……(2)
Equating (1) & (2), we get-
⇒ 
⇒ 
⇒ 
= 
⇒ 
⇒ CY = 
⇒ CY = 
Now,
⇒ 
⇒ 
Question 15.
In □ABCD, seg AD || seg BC. Diagonal AC and diagonal BD intersect each other in point P. Then show that 
Answer:
In Δ APD and ΔCPB
⇒ ∠ APD≅ ∠ CPB (opposite angles)
⇒ ∠ ADP≅ ∠ PBC (Alternate angles ∵ AD||BC)
⇒ Δ APD ~ Δ CPB (By AA Test)
⇒ 
(corresponding sides are proportional)
⇒ 
Question 16.
In fig 1.80, XY || seg AC. If 2AX = 3BX and XY = 9. Complete the activity to find the value of AC.
Activity : 
.......... by componendo.
.......... (I)
.......... 
test of similarity.
.......... corresponding sides of similar triangles.
...from (I)
Answer:
ACTIVITY: 2AX = 3BX ∴ 
……(By Componendo)
…….(I)
Δ BCA~ ΔBYX…… (AA test of similarity).
∴ 
………. (corresponding sides of similar triangles).
∴ AC = 15……from (I)
Question 17.
In figure 1.81, the vertices of square DEFG are on the sides of ΔABC, ∠A = 90°. Then prove that DE2 = BD × EC
(Hint : Show that ΔGBD is similar to ΔDFE. Use GD = FE = DE.)
Answer:
Proof:In □ DEFG is a square
⇒ GF||DE
⇒ GF||BC
Now,In Δ AGF and Δ DBG
⇒ ∠ AGF≅ ∠ DBG (corresponding angles)
⇒ ∠ GDB≅ ∠ FAG (Both are 90° )
⇒ Δ AGF~Δ DBG ……(1) (AA similarity)
Now,In Δ AGF and Δ EFC
⇒ ∠ AFG≅ ∠ ECF (corresponding angles)
⇒ ∠ GAF≅ ∠ FEC (Both are 90° )
⇒ Δ AGF~Δ EFC ……(2) (AA similarity)
From (1) & (2), we have-
⇒ Δ EFC~Δ DBG
⇒ 
⇒ EF× DG = BD× EC
Now,∵ DEFG is a square
⇒ DE = EF = DG
⇒ DE× DE = BD× EC
⇒ DE2 = BD× EC