04 सारणिक

अभ्यास 03

Question:

Find values of k if area of triangle is 4 sq. units and vertices are (i) (k,0),(4,0),(0,2) (ii) (2,0),(0,4),(0,k)

Answer:

(i) Let A(k,0), B(4,0) and C(0,2) be the vertices of the triangle.

Using the formula for area of triangle, Area = (1/2) * (x1 * y2 - x2 * y1)

4 = (1/2) * (k * 2 - 4 * 0)

4 = k

Therefore, the value of k is 4.

(ii) Let A(2,0), B(0,4) and C(0,k) be the vertices of the triangle.

Using the formula for area of triangle, Area = (1/2) * (x1 * y2 - x2 * y1)

4 = (1/2) * (2 * k - 0 * 4)

4 = k

Therefore, the value of k is 4.

Question:

Find area of triangle with vertices at the point given in each of the following (i)(1,0),(6,0),(4,3) (ii)(2,7),(1,1),(10,8) (iii)(−2,−3),(3,2),(−1,−8)

Answer:

(i) Area of triangle with vertices at (1,0), (6,0), (4,3)

Step 1: Calculate the lengths of the sides of the triangle.

Side 1 = |6 - 1| = 5 units

Side 2 = |4 - 6| = 2 units

Side 3 = √[(4 - 1)2 + (3 - 0)2] = √25 = 5 units

Step 2: Calculate the semi-perimeter (s) of the triangle.

Semi-perimeter (s) = (5 + 2 + 5) / 2 = 12 / 2 = 6 units

Step 3: Calculate the area of the triangle using Heron’s formula.

Area = √[s(s - a)(s - b)(s - c)]

Area = √[6(6 - 5)(6 - 2)(6 - 5)]

Area = √[6(1)(4)(1)]

Area = √24 = 4.9 units2

(ii) Area of triangle with vertices at (2,7), (1,1), (10,8)

Step 1: Calculate the lengths of the sides of the triangle.

Side 1 = |1 - 2| = 1 unit

Side 2 = |10 - 1| = 9 units

Side 3 = √[(10 - 2)2 + (8 - 7)2] = √73 = 8.5 units

Step 2: Calculate the semi-perimeter (s) of the triangle.

Semi-perimeter (s) = (1 + 9 + 8.5) / 2 = 18.5 / 2 = 9.25 units

Step 3: Calculate the area of the triangle using Heron’s formula.

Area = √[s(s - a)(s - b)(s - c)]

Area = √[9.25(9.25 - 1)(9.25 - 9)(9.25 - 8.5)]

Area = √[9.25(8.25)(0.25)(0.75)]

Area = √6.5625 = 2.56 units2

(iii) Area of triangle with vertices at (−2,−3), (3,2), (−1,−8)

Step 1: Calculate the lengths of the sides of the triangle.

Side 1 = |3 - (-2)| = 5 units

Side 2 = |(-1) - 3| = 4 units

Side 3 = √[(3 - (-2))2 + (2 - (-3))2] = √25 = 5 units

Step 2: Calculate the semi-perimeter (s) of the triangle.

Semi-perimeter (s) = (5 + 4 + 5) / 2 = 14 / 2 = 7 units

Step 3: Calculate the area of the triangle using Heron’s formula.

Area = √[s(s - a)(s - b)(s - c)]

Area = √[7(7 - 5)(7 - 4)(7 - 5)]

Area = √[7(2)(3)(2)]

Area = √42 = 6.48 units2

Question:

Show that points A (a, b + c), B (b, c + a), C (c, a + b) are collinear

Answer:

  1. Find the equation of the line passing through points A and B. y - b = (c + a - b)/(a - b) (x - a)

  2. Find the equation of the line passing through points B and C. y - c = (a + b - c)/(b - c) (x - b)

  3. Equate the equations of the two lines. (c + a - b)/(a - b) (x - a) = (a + b - c)/(b - c) (x - b)

  4. Simplify the equation. (a - b) (x - a) = (b - c) (x - b)

  5. Solve for x. x = (a (b - c) + b (c + a))/(a - b)

  6. Substitute x in either of the equations to get the value of y. y = (c + a - b)/(a - b) (x - a) y = (c + a - b)/(a - b) [(a (b - c) + b (c + a))/(a - b) - a] y = (c + a - b)/(a - b) [b (c + a)/(a - b) - a] y = (c + a - b) [(c + a)/(a - b) - a] y = (c + a - b) (c + a - a) y = (c + a - b) c

  7. Thus, the equation of the line passing through points A, B and C is given by: y = (c + a - b) cx.

Therefore, the points A (a, b + c), B (b, c + a), C (c, a + b) are collinear.

Question:

If area of triangle is 35 sq units with vertices (2,−6),(5,4) and (k,4). Then k is A 12 B −2 C −12,−2 D 12,−2

Answer:

Step 1: Calculate the length of the sides of the triangle.

Step 2: Use the formula for the area of a triangle, A = 1/2(base x height).

Step 3: Substitute the lengths of the sides and the coordinates of the vertices into the formula.

Step 4: Solve for k.

Answer: A 12

Question:

(i) Find equation of line joining (1,2) and (3,6) using determinants (ii) Find equation of line joining (3,1) and (9,3) using determinants.

Answer:

(i) Equation of line joining (1,2) and (3,6) using determinants: Let x = x1 and y = y1

D = |x1 1| |x2 1|

D = (x1 - x2)

Substituting the given coordinates,

D = (1 - 3) = -2

Therefore, equation of line joining (1,2) and (3,6) is y - 2 = -2(x - 1)

y - 2 = -2x + 2

y = -2x + 4

(ii) Equation of line joining (3,1) and (9,3) using determinants: Let x = x1 and y = y1

D = |x1 1| |x2 1|

D = (x1 - x2)

Substituting the given coordinates,

D = (3 - 9) = -6

Therefore, equation of line joining (3,1) and (9,3) is y - 1 = -6(x - 3)

y - 1 = -6x + 18

y = -6x + 19

जेईई अध्ययन सामग्री (गणित)

01 संबंध एवं फलन

02 व्युत्क्रम त्रिकोणमितीय फलन

03 आव्यूह

04 सारणिक

05 सांत्यता और अवकलनीयता

06 अवकलज का अनुप्रयोग

07 समाकलन

08 समाकलन का अनुप्रयोग

09 वैक्टर

10 त्रिविमीय ज्यामिति का परिचय

11 रैखिक प्रोग्रामिंग

12 प्रायिकता