CBSE Class 10 Mathematics Standard Question Paper 2023

CBSE Class 10 Mathematics Standard Question Paper 2023

Here in this post we are giving the latest 2023 Mathematics Standard Question Paper for CBSE Class 10 Students. This Question paper will be helpful for the next year Class 10 aspirants. This also help the new class 10 students to understand the question pattern for the next CBSE Class 10 Mathematics Standard Examination. We hope this post will helpful for every one.

Mathematics Standard Question Paper 2023 Class 10

SECTION – (A)

(1) The number of polynomials having zeroes -3 and 5 is:

(a) only one

(b) infinite

(c) exactly two

(d) at most two

(2) The pair of equations ax + 2y = 9 and 3x + by = 18 represent parallel lines, where a, b are integers, if :

(a) a = b

(b) 3a = 2b

(c) 2a = 3b

(d) ab = 6

(3) The common difference of the A.P. whose nth term is given by an = 3n + 7 is:

(a) 7

(b) 3

(c) 3n

(d) 1

(4) In the given figure, DE || BC. The value of x is :

(a) 6

(b) 12.5

(c) 8

(d) 10

(5) A quadratic equation whose roots are (2 + √3) and (2 – √3) is:

(a) x² – 4x + 1 = 0

(b) x² + 4x + 1 = 0

(c) 4x² – 3 = 0

(d) x² – 1 = 0

(6) If tan θ = 5/12 then the value of sin θ + cos θ/sin θ – cos θ is :

(a) – 17/7

(b) 17/7

(c) 17/13

(d) -7/13

(7) The distance between the points P (-11/3, 5) and Q (-2/3, 5) is :

(a) 6 units

(b) 4 units

(c) 2 units

(d) 3 units

(8) In the given figure, AB = BC = 10 cm. If AC = 7 cm, then the length of BP is :

(a) 3.5 cm

(b) 7 cm

(c) 6.5 cm

(d) 5 cm

(9) Water in a river which is 3 m deep and 40 m 2 km/h. How much water will fall into the sea in 2 minutes? wide is flowing at the rate of

(a) 800 m³

(b) 4000 m³

(c) 8000 m³

(d) 2000 m³

(10) If the mean and the median of a data are 12 and 15 respectively, then its mode is :

(a) 13.5

(b) 21

(c) 6

(d) 14

(11) In the given figure, AB is a tangent to the circle centered at O. If OA = 6 cm and ∠OAB = 30°, then the radius of the circle is :

(a) 3 cm

(b) 3√3 cm

(c) 2 cm

(d) √3 cm

(12) (2 tan 30°/1 + tan^2 30°) is equal to :

(a) sin 60°

(b) cos 60°

(c) tan 60°

(d) sin 30°

(13) In △ABC and △DEF, AB/DE = BC/FD. Which of the following makes the two triangles similar?

(a) ∠A = ∠D

(b) ∠B = ∠D

(c) ∠B = ∠E

(d) ∠A = ∠F

(14) The 11th term from the end of the A.P.: 107, 4… 16 -62 is :

(a) 25

(b) 16

(c) -32

(d) 0

(15) Two coins are tossed together. The probability of getting at least one tail is :

(a) 1/4

(b) 1/2

(c) 3/4

(d) 1

(16) In the given figure, AC and AB are tangents to a circle centered at O. If ∠COD = 120°, then ∠BAO is equal to

(a) 30°

(b) 60°

(c) 45°

(d) 90°

(17) Which of the following numbers cannot be the probability of happening of an event?

(a) 0

(b) 7/0.01

(c) 0.07

(d) 0.07/3

(18) If every term of the statistical data consisting of n terms is decreased by 2, then the mean of the data :

(a) decreases by 2

(b) remains unchanged

(c) decreases by 2n

(d) decreases by 1

Questions number 19 and 20 are Assertion and Reason based questions carrying 1 mark each. Two statements are given, one labelled a as Assertion (A) and the other is labelled as Reason (R). Select the correct answer to these questions from the codes (a), (b), (c) and (d) as given below.

(a) Both Assertion (A) and Reason (R) are true and Reason (R) is the correct explanation of the Assertion

(b) Both Assertion (A) and Reason (R) are true, but Reason (R) is not (A) the correct explanation of the Assertion (A).

(c) Assertion (A) is true, but Reason (R) is false.

(d) Assertion (A) is false, but Reason (R) is true.

(19) Assertion (A) : If the points A(4, 3) and B(x, 5) lie on a circle with centre O(2, 3), then the value of x is 2.

Reason (R) : Centre of a circle is the mid-point of each chord of the circle.

(20) Assertion (A) : The number 5n cannot end with the digit 0, where n is a natural number.

Reason (R) : Prime factorisation of 5 has only two factors, 1 and 5.

SECTION – (B)

(21) – (a) The line segment joining the points A(4, 5) and B(4, 5) is divided by the point P such that AP: AB = 2: 5. Find the coordinates of P.

OR

(b) Point P(x, y) is equidistant from points A(5, 1) and B(1, 5). Prove that x = y.

(22) In the given figure, PT is a tangent to the circle centered at O. OC is perpendicular to chord AB. Prove that PA.PB = PC^2 – AC^2

(23) Using prime factorisation, find HCF and LCM of 96 and 120.

(24) Find the ratio in which y-axis divides the line segment joining the points (5,-6) and (-1,-4).

(25) – (a) If a cos θ + b sin θ = m and a sin θ – b cos θ = n, then prove that a^2 + b^2 = m^2 + n^2.

OR

(b) Prove that:

√sec A – 1/ sec A + 1 + √sec A + 1 sec A – 1 = 2 cosec A

SECTION – (C)

(26) – (a) Prove that √3 is an irrational number.

OR

(b) The traffic lights at three different road crossings change after every 48 seconds, 72 seconds and 108 seconds respectively. If they change simultaneously at 7 a.m., at what time will they change together next?

(27) If pth term of an A.P. is q and qth term is p, then prove that its nth term is (p + q – n).

(28) – (a) In the given figure, CD is the perpendicular bisector of AB. EF is perpendicular to CD. AE intersects CD at G. Prove that CF/CD = FG/DG

OR

(b) In the given figure, ABCD is a parallelogram. BE bisects CD at M and intersects AC at L. Prove that EL = 2BL.

(29) Two people are 16 km apart on a straight road. They start walking at the same time. If they walk towards each other with different speeds, they will meet in 2 hours. Had they walked in the same direction with same speeds as before, they would have met in 8 hours. Find their walking speeds.

(30) Prove that :

tan θ/1 – cot θ + cot θ/1 – tan θ = 1 + sec θ cosec θ

(31) Find the mean of the following frequency distribution:

Classes	25 – 30	30 – 35	35 – 40	40 – 45	45 – 50	50 – 55	55 – 60
Frequency	14	22	16	6	5	3	4

SECTION – (D)

(32) One observer estimates the angle of elevation to the basket of a hot air balloon to be 60°, while another observer 100 m away estimates the angle of elevation to be 30°. Find:

(a) The height of the basket from the ground.

(b) The distance of the basket from the first observer’s eye.

(c) The horizontal distance of the second observer from the basket.

(33) – (a) A triangle ABC is drawn to circumscribe a circle of radius 4 cm such that the segments BD and DC are of lengths 10 cm and 8 cm respectively. Find the lengths of the sides AB and AC, if it is given that area A ABC = 90 cm².

(b) Two circles with centres O and O’ of radii 6 em and 8 cm, respectively intersect at two points P and Q such that OP and O’P are tangents to the two circles. Find the length of the common chord PQ.

(34) – (a) A train travels at a certain average speed for a distance of 54 km and then travels a distance of 63 km at an average speed of 6 km/h more than the first speed. If it takes 3 hours to complete the journey, what was its first average speed?

OR

(b) Two pipes together can fill a tank in 15/8 hours. The pipe with larger diameter takes 2 hours less than the pipe with smaller diameter to fill the tank separately. Find the time in which each pipe can fill the tank separately.

(35) A horse is tied to a peg at one corner of a square shaped grass field of side 15 m by means of a 5 m long rope. Find the area of that part of the field in which the horse can graze. Also, find the increase in grazing area if length of rope is increased to 10 m. (Use л = 3.14)

SECTION – (E)

Case Study – (1)

(36) A golf ball is spherical with about 300 – 500 dimples that help increase its velocity while in play. Golf balls are in colours also. In the given figure, traditionally white but available 4.2 cm and the surface has 315 dimples (hemi – spherical) of radius 2 mm.

Based on the above, answer the following questions :

(i) Find the surface area of one such dimple.

(ii) Find the volume of the material dug out to make one dimple.

(iii) (a) Find the total surface area exposed to the surroundings.

OR

(iii) – (b) Find the volume of the golf ball.

Case Study – (2)

(37) A middle school decided to run the following spinner game as a fund-raiser on Christmas Carnival.

Making Purple: Spin each spinner once. Blue and red make purple. So, if one spinner shows Red (R) and another Blue (B), then you ‘win’. One such outcome is written as ‘RB’.

Based on the above, answer the following questions:

(i) List all possible outcomes of the game.

(ii) Find the probability of ‘Making Purple’.

(iii) – (a) For each win, a participant gets Rs 10, but if he/she loses, he/she has to pay Rs 5 to the school. If 99 participants played, calculate how much fund could the school have collected.

OR

(iii) (b) If the same amount of 5 has been decided for winning or losing the game, then how much fund had been collected by school? (Number of participants = 99)

Case Study – (3)

(38) In a pool at an aquarium, a dolphin jumps 20 cm per second. Its height above water level after t seconds is given by out of the water travelling at h = 20t – 16t^2

Based on the above, answer the following questions: (i) Find zeroes of polynomial p(t) = 20t-16t.

(ii) Which of the following types of graph represents p(t)?

(iii) – (a) What would be the value of h at t = 3/2? Interpret the result.

OR

(iii) – (b) How much distance has the dolphin covered before hitting the water level again?