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Class 10 Exam  >  Class 10 Tests  >  Mathematics (Maths) Class 10  >  Practice Test: Coordinate Geometry - Class 10 MCQ

Practice Test: Coordinate Geometry - Class 10 MCQ


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

Practice Test: Coordinate Geometry for Class 10 2024 is part of Mathematics (Maths) Class 10 preparation. The Practice Test: Coordinate Geometry questions and answers have been prepared according to the Class 10 exam syllabus.The Practice Test: Coordinate Geometry MCQs are made for Class 10 2024 Exam. Find important definitions, questions, notes, meanings, examples, exercises, MCQs and online tests for Practice Test: Coordinate Geometry below.
Solutions of Practice Test: Coordinate Geometry questions in English are available as part of our Mathematics (Maths) Class 10 for Class 10 & Practice Test: Coordinate Geometry solutions in Hindi for Mathematics (Maths) Class 10 course. Download more important topics, notes, lectures and mock test series for Class 10 Exam by signing up for free. Attempt Practice Test: Coordinate Geometry | 25 questions in 25 minutes | Mock test for Class 10 preparation | Free important questions MCQ to study Mathematics (Maths) Class 10 for Class 10 Exam | Download free PDF with solutions
Practice Test: Coordinate Geometry - Question 1
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The distance between the points (a, b) and (– a, – b) is :

Detailed Solution for Practice Test: Coordinate Geometry - Question 1

We have distance formula as d = 
Where x1=a,y1=b,x2=-a,y2=-b

Practice Test: Coordinate Geometry - Question 2
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The distance between points (a + b, b + c) and (a – b, c – b) is :

Detailed Solution for Practice Test: Coordinate Geometry - Question 2

Distance between two point is

  • = √{[(a+b)-(a-b)]2 + [(b+c)-(c-b)]2}
  • =√[{(a+b-a+b)2}] + [((b+c-c+b)}2]
  • =√[(2b)2 + (2b)2]
  • =√[4b2 +4b2]
  • =√[8b2]
  • =2√(2)xb = 2√2b
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Practice Test: Coordinate Geometry - Question 3
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The distance between A (1, 3) and B (x, 7) is 5. The value of x > 0 is :

Practice Test: Coordinate Geometry - Question 4
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The distance between the points (a cos 20° + b sin 20°, 0) and (0, a sin 20° – b cos 20°) is :
Practice Test: Coordinate Geometry - Question 5
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Mid-point of the line-segment joining the points (– 5, 4) and (9, – 8) is :
Practice Test: Coordinate Geometry - Question 6
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The co-ordinates of the points which divides the join of (– 2, – 2) and (– 5, 7) in the ratio 2 : 1 is :
Practice Test: Coordinate Geometry - Question 7
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The co-ordinates of the point on x-axis which is equidistant from the points (5, 4) and (– 2, 3) are :
Detailed Solution for Practice Test: Coordinate Geometry - Question 7

Let the point on x-axis be (a,0)
Since PA = PB  PA2 = PB2
 (a + 2)2 + (0 - 5)2 = (a - 2)2 + (0 + 3)2
 (a + 2)2 - (a - 2)2 = 9 - 25 = -16
 8a = -16  a = -2.
 The required point is (-2,0).

Practice Test: Coordinate Geometry - Question 8
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The co-ordinates of the point on y-axis which is equidistant from the points (3, 1) and (1, 5) are:
Practice Test: Coordinate Geometry - Question 9
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The coordinates of the centre of a circle are (– 6, 1.5). If the ends of a diameter are (– 3, y) and (x, – 2) then:
Practice Test: Coordinate Geometry - Question 10
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The points (– 2, 2), (8, – 2) and (– 4, – 3) are the vertices of a :
Practice Test: Coordinate Geometry - Question 11
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The points (1, 7), (4, 2), (– 1, 1) and (– 4, 4) are the vertices of a :
Detailed Solution for Practice Test: Coordinate Geometry - Question 11

Step-by-step explanation:

Given points are (1,7),(4,2),(-1,-1),(-4,4)

Let the points are A,B,C,D.

Distance formula = √(x₂-x₁)²+(y₂-y₁)²

                   AB = √(4-1)²+(2-7)²

                         = √9+25

                         = √34

                    BC = √(-1-4)²+(-1-2)²

                          = √25+9

                          =  √34

                     CD = √(-4-(-1))²+(4-(-1))²

                           = √9+25

                           =  √34

                      DA = √(1-(-4))²+(7-4)²

                            = √25+9

                            = √34

also diagonals AC and BD

AC = √(1+1)² + (7+1)² = √68

BD = √(4+4)² + (2-4)² = √68

We know that the all sides and both diagonals of the square are equal

So,from this we can say that these points are the vertices of a square.

Practice Test: Coordinate Geometry - Question 12
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The line segment joining (2, – 3) and (5, 6) is divided by x-axis in the ratio:
Detailed Solution for Practice Test: Coordinate Geometry - Question 12

Hence, the ratio is 1:2 and the division is internal.

Practice Test: Coordinate Geometry - Question 13
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The line segment joining the points (3, 5) and (– 4, 2) is divided by y-axis in the ratio:
Detailed Solution for Practice Test: Coordinate Geometry - Question 13

Practice Test: Coordinate Geometry - Question 14
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If (3, 2), (4, k) and (5, 3) are collinear then k is equal to :
Practice Test: Coordinate Geometry - Question 15
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If the points (p, 0), (0, q) and (1, 1) are collinear then 1/p+1/q is equal to :
Practice Test: Coordinate Geometry - Question 16
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Two vertices of a triangle are (–2, – 3) and (4, –1) and centroid is at the origin. The coordinates of the third vertex of the triangle are :
Practice Test: Coordinate Geometry - Question 17
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A (5, 1), B(1, 5) and C (–3, –1) are the vertices of ?ABC. The length of its median AD is :
Practice Test: Coordinate Geometry - Question 18
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Three consecutive vertices of a parallelogram are (1, –2), (3, 6) and (5, 10). The coordinates of the fourth vertex are :
Practice Test: Coordinate Geometry - Question 19
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The vertices of a parallelogram are (3, –2), (4, 0), (6, –3) and (5, –5). The diagonals intersect at the point M. The coordinates of the point M are :
Detailed Solution for Practice Test: Coordinate Geometry - Question 19

Practice Test: Coordinate Geometry - Question 20
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If two vertices of a parallelogram are (3, 2) and (–1, 0) and the diagonals intersect at (2, –5), then the other two vertices are :
Practice Test: Coordinate Geometry - Question 21
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The circumcentre of the triangle formed by the lines xy + 2x + 2y + 4 = 0 and x + y + 2 = 0 is :
Practice Test: Coordinate Geometry - Question 22
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The vertices of a triangle are (a, b – c), (b, c – a) and (c, a – b), then it's centroid lies on :
Practice Test: Coordinate Geometry - Question 23
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The points (1, 2), (3, 8) and (x, 20) are collinear if x =
Detailed Solution for Practice Test: Coordinate Geometry - Question 23

Practice Test: Coordinate Geometry - Question 24
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For the triangle whose sides are along the lines x = 0, y = 0 and x/6+y/8 = 1, the incentre is :
Practice Test: Coordinate Geometry - Question 25
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For the triangle whose sides are along the lines y = 15, 3x – 4y = 0, 5x + 12y = 0, the incentre is :
Detailed Solution for Practice Test: Coordinate Geometry - Question 25

Given equations:

3x – 4y = 0 …(1)

5x+12y = 0 …(2)

Y-15 = 0 …(3)

From the given equations, (1), (2) and (3) represent the sides AB, BC and CA respectively.

Solving (1) and (2), we get

x= 0, and y= 0

Therefore, the side AB and BC intersect at the point B (0, 0)

Solving (1) and (3), we get

x= 20, y= 15

Hence, the side AB and CA intersect at the point A (20, 15)

Solving (2) and (3), we get

x= -36, y = 15

Thus, the side BC and CA intersect at the point C (-36, 15)

Now,

BC = a = 39
CA = b = 56
AB = c = 25
Similarly, (x1, y1) = A(20, 15)

(x2, y2) = B(0, 0)
(x3, y3) = C(-36, 15)

Therefore, incentre is

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