# 10th Maths Paper Solutions Set 2 : CBSE Delhi Previous Year 2013

General Instructions:
(i) All questions are compulsory.
(ii) The question paper consists of 34 questions divided into four sections A, B, C and D.
(iii) Sections A contains 8 questions of one mark each, which are multiple choice type questions, section B contains 6 questions of two marks each, section C contains 10 questions of three marks each, and section D contains 10 questions of four marks each.
(iv) Use of calculators is not permitted.
Q1 :

If the difference between the circumference and the radius of a circle is 37 cm, then using , the circumference (in cm) of the circle is:

(A) 154

(B) 44

(C) 14

(D) 7

Difference between circumference and radius of the circle = 37 cm

Let r be the radius of the circle. ∴ Circumference of the circle = The correct answer is 44 which is given by option B.

Q2 :

The angle of depression of a car, standing on the ground, from the top of a 75 m high tower, is 30°. The distance of the car from the base of the tower (in m.) is:

(A) (B) (C) (D) 150 Let AB be the tower of height 75 m.

∠ABD = ACB = 30°

Suppose C be the position of the car from the base of the tower.

In right ΔABC, Thus, the distance of the car from the base of the tower is .

The correct answer is which is given by option C.

Q3 :

The probability of getting an even number, when a die is thrown once, is:

(A) (B) (C) (D) When a die is thrown once, the sample space is given by, S = {1, 2, 3, 4, 5, and 6}

Then, the event, E of getting an even number is given by, E = {2, 4, and 6}

∴ Probability of getting an even number = P (E) The correct answer is which is given by option A.

Q4 :

In Fig. 1, PA and PB are two tangents drawn from an external point P to a circle with centre C and radius 4 cm. If PA PB, then the length of each tangent is: (A) 3 cm

(B) 4 cm

(C) 5 cm

(D) 6 cm

Q5 :

In Fig.2, a circle with centre O is inscribed in a quadrilateral ABCD such that, it touches the sides BC, AB, AD and CD at points P, Q, R and S respectively, If AB = 29 cm,

AD = 23 cm, B = 90° and DS = 5 cm, then the radius of the circle (in cm.) is: (A) 11

(B) 18

(C) 6

(D) 15

Q6 :

In Fig. 3, the area of triangle ABC (in sq. units) is: (A) 15

(B) 10

(C) 7.5

(D) 2.5

Q7 :

A box contains 90 discs, numbered from 1 to 90. If one disc is drawn at random from the box, the probability that it bears a prime-number less than 23, is :

(A) (B) (C) (D) Q8 :

The common difference of the AP is:

(A) 2b

(B) −2b

(C) 3

(D) −3

Q9 :

Two circular pieces of equal radii and maximum area, touching each other are cut out from a rectangular card board of dimensions 14 cm × 7 cm. Find the area of the remaining card board. Q10 :

Solve the following quadratic equation for x: Q11 :

Prove that the parallelogram circumscribing a circle is a rhombus.

Q12 :

How many three − digit natural numbers are divisible by 7?

Q13 :

In Fig. 4, a circle inscribed in triangle ABC touches its sides AB, BC and AC at points D, E and F respectively. If AB = 12 cm, BC = 8 cm and AC = 10 cm, then find the lengths of AD, BE and CF. Q14 :

A die is tossed once. Find the probability of getting an even number or a multiple of 3.

Q15 :

In a circle of radius 21 cm, an arc subtends an angle of 60° at the centre.

Find: (i) the length of the arc (ii) area of the sector formed by the arc. Q16 :

A wooden toy was made by scooping out a hemisphere of same radius from each end of a solid cylinder. If the height of the cylinder is 10 cm, and its base is of radius 3.5 cm, find the volume of wood in the toy. Q17 :

A vessel is in the form of hemispherical bowl surmounted by a hollow cylinder of same diameter. The diameter of the hemispherical bowl is 14 cm and the total height of the vessel is 13 cm. Find the total surface area of the vessel. Q18 :

In Fig. 5, AB and CD are two diameters of a circle with centre O, which are perpendicular to each other. OB is the diameter of the smaller circle. If OA = 7 cm, find the area of the shaded region.  Q19 :

Find the ratio in which the y-axis divides the line segment joining the points (−4, − 6) and (10, 12). Also find the coordinates of the point of division.

Q20 :

The horizontal distance between two poles is 15 m. The angle of depression of the top of first pole as seen from the top of second pole is 30°. If the height of the second pole is 24 m, find the height of the first pole. Q21 :

Prove that the points A(0, −1), B(−2, 3), C(6, 7) and D(8, 3) are the vertices of a rectangle ABCD?

Q22 :

Draw a triangle PQR in which QR = 6 cm, PQ = 5 cm and times the corresponding sides of ΔPQR?

Q23 :

The nth term of an AP is given by (−4n + 15). Find the sum of first 20 terms of this AP.

Q24 :

For what value of k, the roots of the quadratic equation are equal?

Q25 :

A bucket open at the top, and made up of a metal sheet is in the form of a frustum of a cone. The depth of the bucket is 24 cm and the diameters of its upper and lower circular ends are 30 cm and 10 cm respectively. Find the cost of metal sheet used in it at the rate of Rs 10 per 100 cm2. [Use π = 3.14]

Q26 :

Water is flowing through a cylindrical pipe, of internal diameter 2 cm, into a cylindrical tank of base radius 40 cm, at the rate of 0.4 m/s. Determine the rise in level of water in the tank in half an hour.

Q27 :

A group consists of 12 persons, of which 3 are extremely patient, other 6 are extremely honest and rest are extremely kind. A person from the group is selected at random. Assuming that each person is equally likely to be selected, find the probability of selecting a person who is (i) extremely patient (ii) extremely kind or honest.

Which of the above values you prefer more?

Q28 :

In Fig. 6, l and m are two parallel tangents to a circle with centre O, touching the circle at A and B respectively. Another tangent at C intersects the line l at D and m at E. Prove that DOE = 90°. Q29 :

Prove that the tangent at any point of a circle is perpendicular to the radius through the point of contact.

Q30 :

Sum of the areas of two squares is 400 cm2. If the difference of their perimeters is 16 cm, find the sides of the two squares.

Q31 :

Solve the following for x: Q32 :

Find the value of x for which the points (x, −1), (2, 1) and (4, 5) are collinear.

Q33 :

From a point P on the ground, the angle of elevation of the top of a 10 m tall building is 30°. A flagstaff is fixed at the top of the building and the angle of elevation of the top of the flagstaff from P is 45°. Find the length of the flagstaff and the distance of the building from the point P. 