Commerce Exam  >  Commerce Notes  >  Mathematics (Maths) Class 11  >  NCERT Solutions: Exercise 10.1 - Conic Sections

NCERT Solutions Class 11 Maths Chapter 10 - Conic Sections

Q1: Find the equation of the circle with centre (0, 2) and radius 2
Ans: The equation of a circle with centre (h, k) and radius is given as
(x­ h)2 + (y ­– k)2 = r2
It is given that centre (h, k) = (0, 2) and radius (r) = 2.
Therefore, the equation of the circle is
(x – 0)2 + (y – 2)2 = 22
x2 +  y2 + 4 ­– 4 +y = 4
x2  + y2 ­– 4y = 0

Q2: Find the equation of the circle with centre (–2, 3) and radius 4
Ans: The equation of a circle with centre (h, k) and radius is given as
(x­ h)2 + (y ­– k)2 = r2
It is given that centre (h, k) = (–2, 3) and radius (r) = 4.
Therefore, the equation of the circle is
(x + 2)2 + (y – 3)2 = (4)2
x2 + 4x + 4 + y2 – 6y + 9 = 16
x2 +  y2+ 4– 6y – 3 = 0

Q3: Find the equation of the circle with centre  NCERT Solutions Class 11 Maths Chapter 10 - Conic Sections  and radius NCERT Solutions Class 11 Maths Chapter 10 - Conic Sections
Ans: The equation of a circle with centre (h, k) and radius is given as

(x­ h)2 + (y ­– k)2 = r2
It is given that centre (h, k) = NCERT Solutions Class 11 Maths Chapter 10 - Conic Sectionsand radius (r) = .NCERT Solutions Class 11 Maths Chapter 10 - Conic Sections
Therefore, the equation of the circle is

 NCERT Solutions Class 11 Maths Chapter 10 - Conic Sections

Q4: Find the equation of the circle with centre (1, 1) and radius NCERT Solutions Class 11 Maths Chapter 10 - Conic Sections
Ans: The equation of a circle with centre (h, k) and radius is given as
(x­ h)2 + (y ­– k)2 = r2
It is given that centre (h, k) = (1, 1) and radius (r) = NCERT Solutions Class 11 Maths Chapter 10 - Conic Sections .
Therefore, the equation of the circle is

 NCERT Solutions Class 11 Maths Chapter 10 - Conic Sections

Q5: Find the equation of the circle with centre (–a, –b) and radius NCERT Solutions Class 11 Maths Chapter 10 - Conic Sections
Ans: The equation of a circle with centre (h, k) and radius is given as
(x­ h)2 + (y ­– k)2 = r2
It is given that centre (h, k) = (–a, –b) and radius (r) = .NCERT Solutions Class 11 Maths Chapter 10 - Conic Sections
Therefore, the equation of the circle is

 NCERT Solutions Class 11 Maths Chapter 10 - Conic Sections

Q6: Find the centre and radius of the circle (x + 5)2 + (y – 3)2 = 36
Ans: The equation of the given circle is (x + 5)2 + (y – 3)2 = 36.
(x + 5)2 + (y – 3)2 = 36
⇒ {x – (–5)}2 + (y – 3)2 = 62, which is of the form (xh)2 + (yk)2 = r2, where h = –5, k = 3, and r = 6.
Thus, the centre of the given circle is (–5, 3), while its radius is 6.

Q7: Find the centre and radius of the circle x2 +  y2 – 4x – 8y – 45 = 0
Ans: The equation of the given circle is x2 +  y2 – 4x – 8y – 45 = 0.
x2  + y2 – 4x – 8y – 45 = 0
⇒ (x2 – 4x)+ (y– 8y) = 45
⇒ {x2 – 2(x)(2) + 22}+ {y2 – 2(y)(4)+ 42} – 4 –16 = 45
⇒ (x – 2)2 + (y –4)2 = 65
⇒ (x – 2)2 + (y –4)2 =  , which is of the form (xh)2 + (yk)2 = r2, where h = 2, k = 4, and  .
Thus, the centre of the given circle is (2, 4), while its radius is NCERT Solutions Class 11 Maths Chapter 10 - Conic Sections .

Q8: Find the centre and radius of the circle x2 +  y2 – 8x+  10y – 12 = 0
Ans: The equation of the given circle is x2 +  y2 – 8x + 10y – 12 = 0.
x2  + y2 – 8x  + 10y – 12 = 0
⇒ (x2 – 8x) + (y 10y) = 12
⇒ {x2 – 2(x)(4) +  42}  + {y 2(y)(5)  + 52}– 16 – 25 = 12
⇒ (x – 4)2 + (y + 5)2 = 53

NCERT Solutions Class 11 Maths Chapter 10 - Conic Sectionswhich is of the form (xh)2 + (yk)2 = r2, where h = 4, k = –5, and  NCERT Solutions Class 11 Maths Chapter 10 - Conic Sections.
Thus, the centre of the given circle is (4, –5), while its radius is NCERT Solutions Class 11 Maths Chapter 10 - Conic Sections .

Q9: Find the centre and radius of the circle 2x2 + 2y2x = 0
Ans: The equation of the given circle is 2x2+  2y2x = 0.

 NCERT Solutions Class 11 Maths Chapter 10 - Conic Sections

NCERT Solutions Class 11 Maths Chapter 10 - Conic Sections
which is of the form (xh)2 + (yk)2 = r2, where h = NCERT Solutions Class 11 Maths Chapter 10 - Conic Sections , k = 0, and NCERT Solutions Class 11 Maths Chapter 10 - Conic Sections .
Thus, the centre of the given circle is NCERT Solutions Class 11 Maths Chapter 10 - Conic Sections, while its radius is NCERT Solutions Class 11 Maths Chapter 10 - Conic Sections.

Q10: Find the equation of the circle passing through the points (4, 1) and (6, 5) and whose centre is on the line 4x +  y = 16.
Ans: Let the equation of the required circle be (xh)2 + (yk)2 = r2.
Since the circle passes through points (4, 1) and (6, 5),
(4 – h)2 + (1 – k)2 = r2 … (1)
(6 – h)2 + (5 – k)2 = r2 … (2)
Since the centre (h, k) of the circle lies on line 4x +  y = 16,
4h  + k = 16 … (3)
From equations (1) and (2), we obtain
(4 – h)2 + (1 – k)= (6 – h)2 + (5 – k)2
⇒ 16 – 8h  + h2  1 – 2k +  k2 = 36 – 12h +  h2 + 25 – 10k +  k2
⇒ 16 – 8h + 1 – 2k = 36 – 12h + 25 – 10k
⇒ 4h + 8k = 44
h + 2k = 11 … (4)
On solving equations (3) and (4), we obtain h = 3 and k = 4.
On substituting the values of h and k in equation (1), we obtain
(4 – 3)2 + (1 – 4)2 = r2
⇒ (1)2 + (– 3)2 = r2
⇒ 1+ 9 = r2
r2 = 10
NCERT Solutions Class 11 Maths Chapter 10 - Conic Sections
Thus, the equation of the required circle is
(x – 3)2+  (y – 4)2 = NCERT Solutions Class 11 Maths Chapter 10 - Conic Sections
x2 – 6x + 9+  y2 ­– 8y + 16 = 10
x2 +  y2 – 6x – 8y + 15 = 0

Q11: Find the equation of the circle passing through the points (2, 3) and (–1, 1) and whose centre is on the line – 3y – 11 = 0.
Ans: Let the equation of the required circle be (xh)2 + (yk)2 = r2.
Since the circle passes through points (2, 3) and (–1, 1),
(2 – h)2 + (3 – k)2 = r2 … (1)
(–1 – h)2 + (1 – k)2 = r2 … (2)
Since the centre (h, k) of the circle lies on line – 3y – 11 = 0,
– 3k = 11 … (3)
From equations (1) and (2), we obtain
(2 – h)2 + (3 – k)2 = (–1 – h)2 + (1 – k)2
⇒ 4 – 4h +  h2 + 9 – 6k +  k2 = 1 +2h  + h2  +1 – 2k +  k2
⇒ 4 – 4h + 9 – 6k = 1 +2h + 1 – 2k
⇒ 6h + 4k = 11 … (4)
On solving equations (3) and (4), we obtain NCERT Solutions Class 11 Maths Chapter 10 - Conic Sections.
On substituting the values of h and k in equation (1), we obtain

 NCERT Solutions Class 11 Maths Chapter 10 - Conic Sections
Thus, the equation of the required circle is

 NCERT Solutions Class 11 Maths Chapter 10 - Conic Sections

Q12: Find the equation of the circle with radius 5 whose centre lies on x-axis and passes through the point (2, 3).
Ans: Let the equation of the required circle be (xh)2 + (yk)2 = r2.
Since the radius of the circle is 5 and its centre lies on the x-axis, k = 0 and r = 5.
Now, the equation of the circle becomes (xh)2 +  y2 = 25.
It is given that the circle passes through point (2, 3).

 NCERT Solutions Class 11 Maths Chapter 10 - Conic Sections
When h = –2, the equation of the circle becomes
(x + 2)2 +  y2 = 25
x2 + 4x + 4 + y2 = 25
x2 +  y2+  4x – 21 = 0
When h = 6, the equation of the circle becomes
(x – 6) + y2 = 25
x2 – 12x + 36+  y2 = 25
x2 +  y2 – 12x + 11 = 0

Q13: Find the equation of the circle passing through (0, 0) and making intercepts and b on the coordinate axes.
Ans: Let the equation of the required circle be (xh)2 + (yk)2 = r2.
Since the centre of the circle passes through (0, 0),
(0 – h)2 + (0 – k)2 = r2
h2 +  k2 = r2
The equation of the circle now becomes (xh)2 + (yk)2 = h2  + k2.
It is given that the circle makes intercepts and b on the coordinate axes. This means that the circle passes through points (a, 0) and (0, b). Therefore,
(ah)2 + (0 – k)2 = h2 +  k2 … (1)
(0 – h)2 + (bk)2 = h2 +  k2 … (2)
From equation (1), we obtain
a2 – 2ah  + h2 +  k2 = h2 +  k2
a2 – 2ah = 0
a(a – 2h) = 0
a = 0 or (a – 2h) = 0
However, a ≠ 0; hence, (a – 2h) = 0 ⇒ h = NCERT Solutions Class 11 Maths Chapter 10 - Conic Sections.
From equation (2), we obtain
h2 +  b2 – 2bk +  k2 = h2 +  k2
b2 – 2bk = 0
b(b – 2k) = 0
b = 0 or(b – 2k) = 0
However, b ≠ 0; hence, (b – 2k) = 0 ⇒ k = NCERT Solutions Class 11 Maths Chapter 10 - Conic Sections.
Thus, the equation of the required circle is

 NCERT Solutions Class 11 Maths Chapter 10 - Conic Sections

Q14: Find the equation of a circle with centre (2, 2) and passes through the point (4, 5).
Ans: The centre of the circle is given as (h, k) = (2, 2).
Since the circle passes through point (4, 5), the radius (r) of the circle is the distance between the points (2, 2) and (4, 5).

 NCERT Solutions Class 11 Maths Chapter 10 - Conic Sections

Thus, the equation of the circle is

 NCERT Solutions Class 11 Maths Chapter 10 - Conic Sections

Q15: Does the point (–2.5, 3.5) lie inside, outside or on the circle x2 +  y2 = 25?
Ans: The equation of the given circle is x2 +  y2 = 25.
x2 +  y2 = 25
⇒ (– 0)2 + (y – 0)2 = 52, which is of the form (xh)2 + (yk)2 = r2, where h = 0, k = 0, and r = 5.
∴ Centre = (0, 0) and radius = 5
Distance between point (–2.5, 3.5) and centre (0, 0)

 NCERT Solutions Class 11 Maths Chapter 10 - Conic Sections
Since the distance between point (–2.5, 3.5) and centre (0, 0) of the circle is less than the radius of the circle, point (–2.5, 3.5) lies inside the circler.

The document NCERT Solutions Class 11 Maths Chapter 10 - Conic Sections is a part of the Commerce Course Mathematics (Maths) Class 11.
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FAQs on NCERT Solutions Class 11 Maths Chapter 10 - Conic Sections

1. What are the different types of conic sections?
Ans. Conic sections include circles, ellipses, parabolas, and hyperbolas. These curves are formed by the intersection of a plane and a double cone.
2. How are conic sections used in real life?
Ans. Conic sections have various applications in real life, such as in astronomy for describing the orbits of planets, in architecture for designing structures like domes, and in engineering for creating satellite dishes.
3. What is the general equation of a conic section?
Ans. The general equation of a conic section is of the form Ax^2 + Bxy + Cy^2 + Dx + Ey + F = 0, where A, B, C, D, E, and F are constants. The coefficients determine the type of conic section.
4. How do you determine the type of conic section from its equation?
Ans. By analyzing the coefficients of the variables in the general equation of a conic section, you can determine its type. For example, if A = C and B = 0, it represents a circle. If A = C but B ≠ 0, it represents an ellipse.
5. What is the focus-directrix property of conic sections?
Ans. The focus-directrix property states that for every point on a conic section, the distance to the focus is equal to the perpendicular distance to the directrix. This property helps in defining the shape and properties of conic sections.
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