Advertisements
Advertisements
प्रश्न
A shopkeeper has 3 varieties of pens 'A', 'B' and 'C'. Meenu purchased 1 pen of each variety for a total of Rs 21. Jeevan purchased 4 pens of 'A' variety 3 pens of 'B' variety and 2 pens of 'C' variety for Rs 60. While Shikha purchased 6 pens of 'A' variety, 2 pens of 'B' variety and 3 pens of 'C' variety for Rs 70. Using matrix method, find cost of each variety of pen.
Advertisements
उत्तर
As there are 3 varieties of pen A, B and C
Meenu purchased 1 pen of each variety which costs her Rs 21
Therefore,
\[A + B + C = 21\]
Similarly,
For Jeevan
\[4A + 3B + 2C = 60\]
For Shikha
\[6A + 2B + 3C = 70\]
\[\begin{bmatrix}1 & 1 & 1 \\ 4 & 3 & 2 \\ 6 & 2 & 3\end{bmatrix}\begin{bmatrix}A \\ B \\ C\end{bmatrix} = \begin{bmatrix}21 \\ 60 \\ 70\end{bmatrix}\]
\[\text{ where }P = \begin{bmatrix}1 & 1 & 1 \\ 4 & 3 & 2 \\ 6 & 2 & 3\end{bmatrix}, Q = \begin{bmatrix}21 \\ 60 \\ 70\end{bmatrix}\]
\[\left| P \right| = 1\left( 9 - 4 \right) - 1\left( 12 - 12 \right) + 1\left( 8 - 18 \right)\]
\[ = - 5 \neq 0\]
\[ \therefore P^{- 1}\text{ exists }\]
\[X = P^{- 1} Q\]
\[ C_{11} = 5 C_{12} = 0 C_{13} = - 10\]
\[ C_{21} = - 1 C_{22} = - 3 C_{23} = 4\]
\[ C_{31} = - 1 C_{32} = 2 C_{33} = - 1\]
\[adj P = \begin{bmatrix}5 & 0 & - 10 \\ - 1 & - 3 & 4 \\ - 1 & 2 & - 1\end{bmatrix}^T = \begin{bmatrix}5 & - 1 & - 1 \\ 0 & - 3 & 2 \\ - 10 & 4 & - 1\end{bmatrix}\]
\[ P^{- 1} = \frac{1}{- 5}\begin{bmatrix}5 & - 1 & - 1 \\ 0 & - 3 & 2 \\ - 10 & 4 & - 1\end{bmatrix}\]
\[X = P^{- 1} Q\]
\[\frac{1}{- 5}\begin{bmatrix}5 & - 1 & - 1 \\ 0 & - 3 & 2 \\ - 10 & 4 & - 1\end{bmatrix}\begin{bmatrix}21 \\ 60 \\ 70\end{bmatrix}\]
\[ = \frac{1}{- 5}\begin{bmatrix}105 - 60 - 70 \\ 0 - 180 + 140 \\ - 210 + 240 - 70\end{bmatrix}\]
\[ = \frac{1}{- 5}\begin{bmatrix}- 25 \\ - 40 \\ - 40\end{bmatrix}\]
\[ \therefore X = \begin{bmatrix}5 \\ 8 \\ 8\end{bmatrix}\]
Therefore, cost of A variety of pens = Rs 5
Cost of B variety of pens = Rs 8
Cost of C variety of pens = Rs 8
APPEARS IN
संबंधित प्रश्न
Examine the consistency of the system of equations.
x + 3y = 5
2x + 6y = 8
Examine the consistency of the system of equations.
3x − y − 2z = 2
2y − z = −1
3x − 5y = 3
Solve the system of linear equations using the matrix method.
4x – 3y = 3
3x – 5y = 7
Solve the system of linear equations using the matrix method.
x − y + z = 4
2x + y − 3z = 0
x + y + z = 2
If A = `[(2,-3,5),(3,2,-4),(1,1,-2)]` find A−1. Using A−1 solve the system of equations:
2x – 3y + 5z = 11
3x + 2y – 4z = –5
x + y – 2z = –3
Evaluate the following determinant:
\[\begin{vmatrix}a + ib & c + id \\ - c + id & a - ib\end{vmatrix}\]
Evaluate
\[∆ = \begin{vmatrix}0 & \sin \alpha & - \cos \alpha \\ - \sin \alpha & 0 & \sin \beta \\ \cos \alpha & - \sin \beta & 0\end{vmatrix}\]
Without expanding, show that the value of the following determinant is zero:
\[\begin{vmatrix}1/a & a^2 & bc \\ 1/b & b^2 & ac \\ 1/c & c^2 & ab\end{vmatrix}\]
Without expanding, show that the value of the following determinant is zero:
\[\begin{vmatrix}\left( 2^x + 2^{- x} \right)^2 & \left( 2^x - 2^{- x} \right)^2 & 1 \\ \left( 3^x + 3^{- x} \right)^2 & \left( 3^x - 3^{- x} \right)^2 & 1 \\ \left( 4^x + 4^{- x} \right)^2 & \left( 4^x - 4^{- x} \right)^2 & 1\end{vmatrix}\]
Evaluate :
\[\begin{vmatrix}x + \lambda & x & x \\ x & x + \lambda & x \\ x & x & x + \lambda\end{vmatrix}\]
Prove the following identities:
\[\begin{vmatrix}y + z & z & y \\ z & z + x & x \\ y & x & x + y\end{vmatrix} = 4xyz\]
Prove the following identity:
\[\begin{vmatrix}a + x & y & z \\ x & a + y & z \\ x & y & a + z\end{vmatrix} = a^2 \left( a + x + y + z \right)\]
Show that
Solve the following determinant equation:
If a, b, c are real numbers such that
\[\begin{vmatrix}b + c & c + a & a + b \\ c + a & a + b & b + c \\ a + b & b + c & c + a\end{vmatrix} = 0\] , then show that either
\[a + b + c = 0 \text{ or, } a = b = c\]
If \[a, b\] and c are all non-zero and
Using determinants show that the following points are collinear:
(2, 3), (−1, −2) and (5, 8)
2x − y = 1
7x − 2y = −7
Prove that :
Prove that :
Write the value of the determinant \[\begin{vmatrix}2 & - 3 & 5 \\ 4 & - 6 & 10 \\ 6 & - 9 & 15\end{vmatrix} .\]
If x ∈ N and \[\begin{vmatrix}x + 3 & - 2 \\ - 3x & 2x\end{vmatrix}\] = 8, then find the value of x.
\[\begin{vmatrix}\log_3 512 & \log_4 3 \\ \log_3 8 & \log_4 9\end{vmatrix} \times \begin{vmatrix}\log_2 3 & \log_8 3 \\ \log_3 4 & \log_3 4\end{vmatrix}\]
The number of distinct real roots of \[\begin{vmatrix}cosec x & \sec x & \sec x \\ \sec x & cosec x & \sec x \\ \sec x & \sec x & cosec x\end{vmatrix} = 0\] lies in the interval
\[- \frac{\pi}{4} \leq x \leq \frac{\pi}{4}\]
The value of the determinant \[\begin{vmatrix}x & x + y & x + 2y \\ x + 2y & x & x + y \\ x + y & x + 2y & x\end{vmatrix}\] is
Let \[f\left( x \right) = \begin{vmatrix}\cos x & x & 1 \\ 2\sin x & x & 2x \\ \sin x & x & x\end{vmatrix}\] \[\lim_{x \to 0} \frac{f\left( x \right)}{x^2}\] is equal to
Solve the following system of equations by matrix method:
5x + 3y + z = 16
2x + y + 3z = 19
x + 2y + 4z = 25
Solve the following system of equations by matrix method:
x − y + z = 2
2x − y = 0
2y − z = 1
Show that each one of the following systems of linear equation is inconsistent:
2x + 3y = 5
6x + 9y = 10
Two factories decided to award their employees for three values of (a) adaptable tonew techniques, (b) careful and alert in difficult situations and (c) keeping clam in tense situations, at the rate of ₹ x, ₹ y and ₹ z per person respectively. The first factory decided to honour respectively 2, 4 and 3 employees with a total prize money of ₹ 29000. The second factory decided to honour respectively 5, 2 and 3 employees with the prize money of ₹ 30500. If the three prizes per person together cost ₹ 9500, then
i) represent the above situation by matrix equation and form linear equation using matrix multiplication.
ii) Solve these equation by matrix method.
iii) Which values are reflected in the questions?
Two schools P and Q want to award their selected students on the values of Tolerance, Kindness and Leadership. The school P wants to award ₹x each, ₹y each and ₹z each for the three respective values to 3, 2 and 1 students respectively with a total award money of ₹2,200. School Q wants to spend ₹3,100 to award its 4, 1 and 3 students on the respective values (by giving the same award money to the three values as school P). If the total amount of award for one prize on each values is ₹1,200, using matrices, find the award money for each value.
Apart from these three values, suggest one more value which should be considered for award.
If \[\begin{bmatrix}1 & 0 & 0 \\ 0 & y & 0 \\ 0 & 0 & 1\end{bmatrix}\begin{bmatrix}x \\ - 1 \\ z\end{bmatrix} = \begin{bmatrix}1 \\ 0 \\ 1\end{bmatrix}\] , find x, y and z.
The system of linear equations:
x + y + z = 2
2x + y − z = 3
3x + 2y + kz = 4 has a unique solution if
Let a, b, c be positive real numbers. The following system of equations in x, y and z
(a) no solution
(b) unique solution
(c) infinitely many solutions
(d) finitely many solutions
If \[A = \begin{bmatrix}1 & - 2 & 0 \\ 2 & 1 & 3 \\ 0 & - 2 & 1\end{bmatrix}\] ,find A–1 and hence solve the system of equations x – 2y = 10, 2x + y + 3z = 8 and –2y + z = 7.
The value of x, y, z for the following system of equations x + y + z = 6, x − y+ 2z = 5, 2x + y − z = 1 are ______
`abs (("a"^2, 2"ab", "b"^2),("b"^2, "a"^2, 2"ab"),(2"ab", "b"^2, "a"^2))` is equal to ____________.
What is the nature of the given system of equations
`{:(x + 2y = 2),(2x + 3y = 3):}`
The number of real values λ, such that the system of linear equations 2x – 3y + 5z = 9, x + 3y – z = –18 and 3x – y + (λ2 – |λ|z) = 16 has no solution, is ______.
