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Practice Test: Circles - Class 10 MCQ


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25 Questions MCQ Test Mathematics (Maths) Class 10 - Practice Test: Circles

Practice Test: Circles for Class 10 2024 is part of Mathematics (Maths) Class 10 preparation. The Practice Test: Circles questions and answers have been prepared according to the Class 10 exam syllabus.The Practice Test: Circles MCQs are made for Class 10 2024 Exam. Find important definitions, questions, notes, meanings, examples, exercises, MCQs and online tests for Practice Test: Circles below.
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Practice Test: Circles - Question 1

A point P is 10 cm from the centre of a circle. The length of the tangent drawn from P to the circle is 8 cm. The radius of the circle is equal to

Detailed Solution for Practice Test: Circles - Question 1

ΔPTO is a right angled triangle at T ,where the tangent touches the circle.
So applying pythagoras theorem,
H2=P2+B2
102=B2+82
B= 
Radius is 6cm.

Practice Test: Circles - Question 2

A point P is 25 cm from the centre of a circle. The radius of the circle is 7 cm and length of the tangent drawn from P to the circle is x cm. The value of x =

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Practice Test: Circles - Question 3

In fig, O is the centre of the circle, CA is tangent at A and CB is tangent at B drawn to the circle. If ∠ACB = 75°, then ∠AOB =

Practice Test: Circles - Question 4

In fig, O is the centre of the circle. PQ is tangent to the circle and secant PAB passes through the centre O. If PQ = 5 cm and PA = 1 cm, then the radius of the circle is

Detailed Solution for Practice Test: Circles - Question 4

Practice Test: Circles - Question 5

A tangent PQ at a point P of a circle of radius 5 cm meets a line through the centre O at a point Q such that OQ = 12 cm. Length PQ is

Practice Test: Circles - Question 6

From a point Q, the length of the tangent to a circle is 24 cm and the distance of Q from the centre is 25 cm. The radius of the circle is

Practice Test: Circles - Question 7

The length of the tangent from a point A at a circle, of radius 3 cm, is 4 cm. The distance of A from the centre of the circle is

Practice Test: Circles - Question 8

If tangents PA and PB from a point P to a circle with centre O are inclined to each other at an angle of 80° then ∠POA is equal to

Practice Test: Circles - Question 9

If TP and TQ are two tangents to a circle with centre O so that ∠POQ = 110°, then, ∠PTQ is equal to

Practice Test: Circles - Question 10

In the given figure, PT is tangent to the circle with centre O. If OT = 6 cm and OP = 10 cm then the length of tangent PT is 

Detailed Solution for Practice Test: Circles - Question 10

In right triangle PTO  By using Pythagoras theorem, 

PO2 = OT2 + TP

⇒ 102 = 62 + TP

⇒  TP = 100 - 36

⇒  TP = 64

⇒  TP  = 8

Practice Test: Circles - Question 11

Two circle touch each other externally at C and AB is a common tangent to the circles. Then, ∠ACB =

Detailed Solution for Practice Test: Circles - Question 11

Let P be a point on AB such that, PC is at right angles to the Line Joining the centers of the circles.

Note that, PC is a common tangent to both circles.

This is because tangent is perpendicular to radius at point of contact for any circle.

 

let ∠PAC= α and ∠PBC = β.

PA = PC [lengths of the tangents from an external point C]

In a triangle CAP, ∠PAC = ∠ACP = α

similarly PB = CP and ∠PCB = ∠CBP = β

now in the triangle ACB,

∠CAB + ∠CBA + ∠ACB = 180°   [sum of the interior angles in a triangle]

α + β + (α + β) = 180°   (Since ∠ACB = ∠ACP + ∠PCB = α + β.

2α + 2β = 180°

α + β = 90°

∴ ∠ACB = α + β = 90°

Practice Test: Circles - Question 12

ABC is a right angled triangle, right angled at B such that BC = 6 cm and AB = 8 cm. A circle with centre O is inscribed in ΔABC. The radius of the circle is

Practice Test: Circles - Question 13

PQ is a tangent drawn from a point P to a circle with centre O and QOR is a diameter of the circle such that ∠POR = 120°, then ∠OPQ is

Detailed Solution for Practice Test: Circles - Question 13


Given- PQ is a tangent to a circle with centre O at Q. QOR is a diameter of the given circle so that ∠POR=120o. To find out- ∠OPQ=?
Solution- QOR is a diameter.
∴OQ is a radius through the point of contact Q of the tangent PQ. ∴∠OQP=90o since the radius through the point  of contact of a tangent to a circle is perpendicular  to the tangent.∴∠OPQ+∠OQP=120o
(external angles of a triangle=sum of the internal opposite angles )
∴∠OPQ = 120− 90= 30o.

Practice Test: Circles - Question 14

If four sides of a quadrilateral ABCD are tangential to a circle, then

Practice Test: Circles - Question 15

The length of the tangent drawn from a point 8 cm away from the centre of a circle of radius 6 cm is

Detailed Solution for Practice Test: Circles - Question 15

Let P be the external point and PA and PB be the tangents and OA and OB be the radii.
So OP is the hypotenuse=8cm 
Applying Pythagoras theorem,
H= P+ B2
64 = AP+ 36
AP = 

Practice Test: Circles - Question 16

AB and CD are two common tangents to circles which touch each other at C. If D lies on AB such that CD = 4 cm, then AB is equal to

Detailed Solution for Practice Test: Circles - Question 16

From the given figure, CD = 4 cm
CD=AD=4CD = AD = 4CD=AD=4 (tangents drawn from an exterior point are equal)
CD=BD=4CD = BD = 4CD=BD=4 (tangents drawn from an exterior point are equal)
Now, AB=AD+BD=4+4=8AB = AD + BD = 4 + 4 = 8AB=AD+BD=4+4=8 cm

Practice Test: Circles - Question 17

In the adjoining figure, if AD, AE and BC are tangents to the circle at D, E and F respectively. Then,

Practice Test: Circles - Question 18

If the diagonals of a cyclic quadrilateral are equal, then the quadrilateral is

Detailed Solution for Practice Test: Circles - Question 18

Let ABCD be a cyclic quadrilateral having diagonals BD and AC, intersecting each other at point O.

(Consider BD as a chord)
∠BCD + ∠BAD = 180 (Cyclic quadrilateral)

∠BCD = 180− 90 = 90
(Considering AC as a chord)

∠ADC + ∠ABC = 180 (Cyclic quadrilateral)

90+ ∠ABC = 180
∠ABC = 90

Each interior angle of a cyclic quadrilateral is of 90.Hence it is a rectangle.

Practice Test: Circles - Question 19

The quadrilateral formed by angle bisectors of a cyclic quadrilateral is a:

Detailed Solution for Practice Test: Circles - Question 19

To prove: PQRS is a cyclic quadrilateral. 

Proof: In △ARB, we have

1/2∠A + 1/2∠B + ∠R = 180°   ....(i)   (Since, AR, BR are bisectors of ∠A and ∠B)

In △DPC, we have 

1/2∠D + 1/2∠C +  ∠P = 180°  ....(ii)   (Since, DP,CP are bisectors of ∠D and ∠C respectively)

Adding (i) and (ii),we get

1/2∠A + 1/2∠B + ∠R + 1/2∠D + 1/2∠C + ∠P = 180° + 180°

∠P + ∠R = 360° - 1/2(∠A  + ∠B + ∠C  + ∠D)

∠P + ∠R = 360° - 1/2 x 360° = 360° - 180°

⇒ ∠P + ∠R = 180°

As the sum of a pair of opposite angles of quadrilateral PQRS is 180°. Therefore, quadrilateral PQRS is cyclic.

Practice Test: Circles - Question 20

In the given figure, AB is the diameter of the circle. Find the value of ∠ACD :

Practice Test: Circles - Question 21

Find the value of ∠DCE :

Practice Test: Circles - Question 22

In the given figure, PQ is the tangent of the circle. Line segment PR intersects the circle at N and R. PQ = 15 cm, PR = 25 cm, find PN:

Detailed Solution for Practice Test: Circles - Question 22

Given, PQ = 15 cm

PR = 25 cm

We know that, PQ² = PN × PR
15² = PN × 25
225 = PN × 25
PN = 9

Practice Test: Circles - Question 23

In the given figure, there are two circles with the centres O and O' touching each other internally at P. Tangents TQ and TP are drawn to the larger circle and tangents TP and TR are drawn to the smaller circle. Find TQ : TR

Detailed Solution for Practice Test: Circles - Question 23

As the lengths of tangents drawn from an external point to a circle are equal,

For the circle with center O, TQ = TP ….(i)

For the circle with center O′, TR = TP ….(ii)

Dividing equation (i) by (ii), we get,

TQ : TR = 1 : 1

Practice Test: Circles - Question 24

In the given figure, PAQ is the tangent. BC is the diameter of the circle. m ∠BAQ = 60°, find m ∠ABC :

Detailed Solution for Practice Test: Circles - Question 24

The correct answer is b

∠ABC = 30 degrees

Practice Test: Circles - Question 25

AB is a chord of the circle and AOC is its diameter such that angle ACB = 50°. If AT is the tangent to the circle at the point A, then BAT is equal to

Detailed Solution for Practice Test: Circles - Question 25

Answer: (c) 50°

 

∠ABC = 90° (angle in Semicircle is right angle)
In ∆ACB
∠A + ∠B + ∠C = 180°
∠A = 180° – (90° + 50°)
∠A = 40°
Or ∠OAB = 40°
Therefore, ∠BAT = 90° – 40° = 50°

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