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Differential Equations — Maths STD 12 Science — Question

Gujarat BoardEnglish MediumSTD 12 ScienceMathsDifferential Equations4 Marks
Question
A differential equation is said to be in the variable separable form if it is expressible in the form $f(x)\ dx = g(y)\ dy.$
The solution of this equation is given by
$\int\text{f(x)dx}=\int\text{g(y)dy}+\text{c},$ where c is the constant of integration.
Based on the above information, answer the following questions.
  1. If the solution of the differential equation $\frac{\text{dy}}{\text{dx}}=\frac{\text{ax+3}}{\text{2y+f}}$ represents a circle, then the value of 'a' is:
  1. $2$
  2. $-2$
  3. $3$
  4. $-4$
  1. The differential equation $\frac{\text{dy}}{\text{dx}}=\frac{\sqrt{1-\text{y}^2}}{\text{y}}$ determines a family of circle with.
  1. Variable radii and fixed centre $(0, 1)$
  2. Variable radii and fixed centre $(0, -1)$
  3. Fixed radius 1 and variable centre on $x-$axis
  4. Fixed radius 1 and variable centre on $y-$axis
  1. If $= y'+ 1, y(0) = 1$, then $y ($In $2) =$
  1. $1$
  2. $2$
  3. $3$
  4. $4$
  1. The solution of the differential equation $\frac{\text{dy}}{\text{dx}}=\text{e}^\text{x-y}+\text{x}^2\text{e}^\text{-y}$ is:
  1. $\text{e}^\text{x}=\frac{\text{y}^3}{3}+\text{e}^\text{y}+\text{c}$
  2. $\text{e}^\text{y}=\frac{\text{x}^2}{3}+\text{e}^\text{x}+\text{c}$
  3. $\text{e}^\text{y}=\frac{\text{x}^3}{3}+\text{e}^\text{x}+\text{c}$
  4. None of these
  1. If $\frac{\text{dy}}{\text{dx}}=\text{y}\sin2\text{x},\ \text{y}(0)=1,$ then its solution is:
  1. $\text{y}=\text{e}^{\sin^2}\text{x}$
  2. $\text{y}={\sin^2}\text{x}$
  3. $\text{y}={\cos^2}\text{x}$
  4. $\text{y}=\text{e}^{\cos^2}\text{x}$

Answer

  1. (b) $-2$
Solution:
We have, $\frac{\text{dy}}{\text{dx}}=\frac{\text{ax+3}}{\text{2y+f}}$
$\Rightarrow\ \ (\text{ax+3})\text{dx}=(2\text{y}+\text{f})\text{dy}$
$\Rightarrow\text{a}\frac{\text{x}^2}{2}+\text{3x}=\text{y}^2+\text{fy}+\text{c}$ (Integrating)
$\Rightarrow-\frac{\text{a}}{2}\text{x}^2+\text{y}^2-\text{3x}+\text{fy}+\text{C}=0$
This will represent a circle, if $\frac{-\text{a}}{2}=1\Rightarrow\text{a}=-2$
$[ \therefore$ In circle, coefficient of $x^2 =$ coefficient of $y^2)$
  1. (c) Fixed radius 1 and variable centre on x-axis
Solution:
We have, $\frac{\text{ydy}}{\sqrt{1-\text{y}^2}}=\text{dx}$
On integration, we get $-\sqrt{1-\text{y}^2}=\text{x+c}$
$\Rightarrow 1 - y^2 = (x + c)^2\Rightarrow ^(x + c)^2+ y^2= 1$ which represents a circle with radius I and centre on the x-axis.
  1. (c) $3$
Solution:
$\text{y}'=\text{y}+1\Rightarrow\frac{\text{dy}}{\text{y}+1}=\text{dx}$
$\Rightarrow In (y + 1) = x + c ($integrating$)$
Now, $y(0) = 1 \Rightarrow c = In\ 2$
$\therefore \ \text{In}\Bigg(\frac{\text{y}+1}{2}\Bigg)=\text{x}$
$\Rightarrow y + 1 = 2e^x$
So, $y (In\ 2) = -1 + 2e^{In\ 2} = -1 + 4 = 3$​​​​​​​
  1. (c) $\text{e}^\text{y}=\frac{\text{x}^3}{3}+\text{e}^\text{x}+\text{c}$
Solution:
From the given differential equation, we have
$\frac{\text{dy}}{\text{dx}}=\frac{\text{e}^\text{x}+\text{x}^\text{2}}{\text{e}^\text{y}}$
$\Rightarrow\ \text{e}^\text{y}\text{dy}=(\text{e}^\text{x}+\text{x}^2)\text{dx}$
Integrating, we get $\text{e}^\text{y}=\text{e}^\text{x}+\frac{\text{x}^3}{3}+\text{c}$
  1. (a) $\text{y}=\text{e}^{\sin^2}\text{x}$
Solution:
We have, $\frac{\text{dy}}{\text{dx}}=\text{y}\sin2\text{x}$
$\Rightarrow\ \frac{\text{dy}}{\text{y}}=\sin2\text{x}\ \text{dx}$
$\Rightarrow\ \log\text{y}=-\frac{\cos2\text{x}}{2}+\text{c}$
Since $x = 0, y = 1$
therefore $\text{C}=\frac{1}{2}$
Now, $\log\text{y}=\frac{1}{2}(1-\cos2\text{x})$
$\Rightarrow\ \log\text{y}=\sin^2\text{x}\Rightarrow\text{y}=\text{e}^{\sin^2}\text{x}$

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Three car dealers, say A, Band C, deals in three types of cars, namely Hatchback cars, Sedan cars, SUV cars. The sales figure of 2019 and 2020 showed that dealer A sold 120 Hatchback, 50 Sedan, 10 SUV cars in 2019 and 300 Hatchback, 150 Sedan, 20 SUV cars in 2020; dealer B sold 100 Hatchback, 30 Sedan, 5 SUV cars in 2019 and 200 Hatchback, 50 Sedan, 6 SUV cars in 2020; dealer C sold 90 Hatchback, 40 Sedan, 2 SUV cars in 2019 and 100 Hatchback, 60 Sedan, 5 SUV cars in 2020.

Based on the above information, answer the following questions.
  1. The matrix summarizing sales data of 2019 is:
  1. $\begin{matrix}&\text{Hatchback}&\text{Sedan}&\text{SUV}\end{matrix}\\\begin{matrix}\text{A}\\\text{B}\\\text{C}\end{matrix}\begin{bmatrix}\ \ \ \ \ \ 300\ \ \ &\ \ 150&\ \ \ \ \ 20\\\ \ \ 200&\ \ 50&\ \ \ \ \ 6\\\ \ \ 100&\ \ 30&\ \ \ \ \ 5\end{bmatrix}$
  2. $\begin{matrix}&\text{Hatchback}&\text{Sedan}&\text{SUV}\end{matrix}\\\begin{matrix}\text{A}\\\text{B}\\\text{C}\end{matrix}\begin{bmatrix}\ \ \ \ \ \ 120\ \ \ &\ \ 100&\ \ \ \ \ 20\\\ \ \ 100&\ \ 30&\ \ \ \ \ 5\\\ \ \ 90&\ \ 40&\ \ \ \ \ 2\end{bmatrix}$
  3. $\begin{matrix}&\text{Hatchback}&\text{Sedan}&\text{SUV}\end{matrix}\\\begin{matrix}\text{A}\\\text{B}\\\text{C}\end{matrix}\begin{bmatrix}\ \ \ \ \ \ 100\ \ \ &\ \ 30&\ \ \ \ \ 5\\\ \ \ 120&\ \ 50&\ \ \ \ \ 10\\\ \ \ 90&\ \ 40&\ \ \ \ \ 2\end{bmatrix}$
  4. $\begin{matrix}&\text{Hatchback}&\text{Sedan}&\text{SUV}\end{matrix}\\\begin{matrix}\text{A}\\\text{B}\\\text{C}\end{matrix}\begin{bmatrix}\ \ \ \ \ \ 200\ \ \ &\ \ 50&\ \ \ \ \ 6\\\ \ \ 100&\ \ 30&\ \ \ \ \ 5\\\ \ \ 300&\ \ 150&\ \ \ \ \ 20\end{bmatrix}$
  1. The matrix summarizing sales data of 2020 is:
  1. $\begin{matrix}&\text{Hatchback}&\text{Sedan}&\text{SUV}\end{matrix}\\\begin{matrix}\text{A}\\\text{B}\\\text{C}\end{matrix}\begin{bmatrix}\ \ \ \ \ \ 300\ \ \ &\ \ 150&\ \ \ \ \ 20\\\ \ \ 200&\ \ 50&\ \ \ \ \ 6\\\ \ \ 100&\ \ 60&\ \ \ \ \ 5\end{bmatrix}$
  2. $\begin{matrix}&\text{Hatchback}&\text{Sedan}&\text{SUV}\end{matrix}\\\begin{matrix}\text{A}\\\text{B}\\\text{C}\end{matrix}\begin{bmatrix}\ \ \ \ \ \ 120\ \ \ &\ \ 50&\ \ \ \ \ 10\\\ \ \ 100&\ \ 60&\ \ \ \ \ 5\\\ \ \ 90&\ \ 40&\ \ \ \ \ 2\end{bmatrix}$
  3. $\begin{matrix}&\text{Hatchback}&\text{Sedan}&\text{SUV}\end{matrix}\\\begin{matrix}\text{A}\\\text{B}\\\text{C}\end{matrix}\begin{bmatrix}\ \ \ \ \ \ 100\ \ \ &\ \ 60&\ \ \ \ \ 5\\\ \ \ 120&\ \ 50&\ \ \ \ \ 10\\\ \ \ 90&\ \ 40&\ \ \ \ \ 2\end{bmatrix}$
  4. $\begin{matrix}&\text{Hatchback}&\text{Sedan}&\text{SUV}\end{matrix}\\\begin{matrix}\text{A}\\\text{B}\\\text{C}\end{matrix}\begin{bmatrix}\ \ \ \ \ \ 200\ \ \ &\ \ 50&\ \ \ \ \ 6\\\ \ \ 100&\ \ 60&\ \ \ \ \ 5\\\ \ \ 300&\ \ 150&\ \ \ \ \ 20\end{bmatrix}$
  1. The cost incurred by the organisation on village Z is:
  1. $\begin{matrix}&\text{Hatchback}&\text{Sedan}&\text{SUV}\end{matrix}\\\begin{matrix}\text{A}\\\text{B}\\\text{C}\end{matrix}\begin{bmatrix}\ \ \ \ \ \ 190\ \ \ &\ \ 100&\ \ \ \ \ 7\\\ \ \ 300&\ \ 80&\ \ \ \ \ 11\\\ \ \ 420&\ \ 200&\ \ \ \ \ 30\end{bmatrix}$
  2. $\begin{matrix}&\text{Hatchback}&\text{Sedan}&\text{SUV}\end{matrix}\\\begin{matrix}\text{A}\\\text{B}\\\text{C}\end{matrix}\begin{bmatrix}\ \ \ \ \ \ 300\ \ \ &\ \ 80&\ \ \ \ \ 11\\\ \ \ 190&\ \ 100&\ \ \ \ \ 7\\\ \ \ 420&\ \ 200&\ \ \ \ \ 30\end{bmatrix}$
  3. $\begin{matrix}&\text{Hatchback}&\text{Sedan}&\text{SUV}\end{matrix}\\\begin{matrix}\text{A}\\\text{B}\\\text{C}\end{matrix}\begin{bmatrix}\ \ \ \ \ \ 420\ \ \ &\ \ 200&\ \ \ \ \ 30\\\ \ \ 300&\ \ 80&\ \ \ \ \ 11\\\ \ \ 190&\ \ 100&\ \ \ \ \ 7\end{bmatrix}$
  4. None of these
  1. The increase in sales from 2019 to 2020 is given by the matrix.
  1. $\begin{matrix}&\text{Hatchback}&\text{Sedan}&\text{SUV}\end{matrix}\\\begin{matrix}\text{A}\\\text{B}\\\text{C}\end{matrix}\begin{bmatrix}\ \ \ \ \ \ 180\ \ \ &\ \ 100&\ \ \ \ \ 10\\\ \ \ 10&\ \ 20&\ \ \ \ \ 1\\\ \ \ 100&\ \ 20&\ \ \ \ \ 3\end{bmatrix}$
  2. $\begin{matrix}&\text{Hatchback}&\text{Sedan}&\text{SUV}\end{matrix}\\\begin{matrix}\text{A}\\\text{B}\\\text{C}\end{matrix}\begin{bmatrix}\ \ \ \ \ \ 10\ \ \ &\ \ 20&\ \ \ \ \ 3\\\ \ \ 100&\ \ 20&\ \ \ \ \ 1\\\ \ \ 180&\ \ 100&\ \ \ \ \ 10\end{bmatrix}$
  3. $\begin{matrix}&\text{Hatchback}&\text{Sedan}&\text{SUV}\end{matrix}\\\begin{matrix}\text{A}\\\text{B}\\\text{C}\end{matrix}\begin{bmatrix}\ \ \ \ \ \ 180\ \ \ &\ \ 100&\ \ \ \ \ 10\\\ \ \ 100&\ \ 20&\ \ \ \ \ 1\\\ \ \ 10&\ \ 20&\ \ \ \ \ 3\end{bmatrix}$
  4. $\begin{matrix}&\text{Hatchback}&\text{Sedan}&\text{SUV}\end{matrix}\\\begin{matrix}\text{A}\\\text{B}\\\text{C}\end{matrix}\begin{bmatrix}\ \ \ \ \ \ 100\ \ \ &\ \ 20&\ \ \ \ \ 3\\\ \ \ 180&\ \ 100&\ \ \ \ \ 10\\\ \ \ 10&\ \ 20&\ \ \ \ \ 3\end{bmatrix}$
  1. If each dealer receive profit of ₹ 50000 on sale of a Hatchback. ₹ 100000 on sale of a Sedan and ₹ 200000 on sale of a SUV, then amount of profit received in the year 2020 by each dealer is given by the matrix.
  1. $\begin{matrix}\text{A}\\\text{B}\\\text{C}\end{matrix}\begin{bmatrix}30000000\\15000000\\12000000\end{bmatrix}$
  2. $\begin{matrix}\text{A}\\\text{B}\\\text{C}\end{matrix}\begin{bmatrix}12000000\\16200000\\34000000\end{bmatrix}$
  3. $\begin{matrix}\text{A}\\\text{B}\\\text{C}\end{matrix}\begin{bmatrix}34000000\\16200000\\12000000\end{bmatrix}$
  4. $\begin{matrix}\text{A}\\\text{B}\\\text{C}\end{matrix}\begin{bmatrix}15000000\\30000000\\12000000\end{bmatrix}$
Read the following text carefully and answer the questions that follow: Consider the following diagram, where the forces in the cable are given.
Image
$i$. What is the equation of the line along cable $AD? (1)$
$ii$. What is length of cable $DC? (1)$
$iii$. Find vector $ DB (2)$
OR
What is sum of vectors along the cable? $(2)$
A spherical ball of salt is dissolving in water in such a manner that the rate of decrease of the volume at any instant is propotional to the surface. Prove that the radius is decreasing at a constant rate.
A building is to be constructed in the form of a triangular pyramid, ABCD as shown in the figure.

Let its angular points are A(0, 1, 2), B(3, 0, 1), C(4, 3, 6), and D(2, 3, 2), and G be the point of intersection of the medians of $\triangle\text{BCD}.$
Based on the above information, answer the following questions.
  1. The coordinates of point Gare:
  1. (2, 3, 3)
  2. (3, 3, 2)
  3. (3, 2, 3)
  4. (0, 2, 3)
  1. The length of vector $\overline{\text{AG}}$ is:
  1. $\sqrt{17}\text{ units}$
  2. $\sqrt{11}\text{ units}$
  3. $\sqrt{13}\text{ units}$
  4. $\sqrt{19}\text{ units}$
  1. Area of $\triangle\text{ABC}$ (in sq. units) is:
  1. $\sqrt{10}$
  2. $2\sqrt{10}$
  3. $3\sqrt{10}$
  4. $5\sqrt{10}$
  1. The sum of lengths of $\overline{\text{AB}}$ and $\overline{\text{AC}}$ is:
  1. 5 units
  2. 9.32 units
  3. 10 units
  4. 11 units
  1. The length of the perpendicular from the vertex D on the opposite face is:
  1. $\frac{6}{\sqrt{10}}\text{ units}$
  2. $\frac{2}{\sqrt{10}}\text{ units}$
  3. $\frac{3}{\sqrt{10}}\text{ units}$
  4. $8\sqrt{10}\text{ units}$
A real estate company is going to build a new residential complex. The land they have purchased can hold at most $4500$ apartments. Also, if they make x apartments, then the monthly maintenance cost for the whole complex would be as follows: Fixed cost $= ₹\ 50,00,000$. Variable cost $= (160x - 0.04x^2)$

Based on the above information, answer the following questions.
  1. The maintenance cost as a function of x will be.
  1. $160x - 0.04x^2$
  2. $5000000$
  3. $5000000 + 160x - 0.04x^2$
  4. None of these
  1. If $C(x)$ denote the maintenance cost function, then maximum value of $C(x)$ occur at $x =$
  1. $0$
  2. $2000$
  3. $4500$
  4. $5000$
  1. The maximum value of $C(x)$ would be.
  1. $₹\ 5225000$
  2. $₹\ 5160000$
  3. $₹\ 5000000$
  4. $₹\ 4000000$
  1. The number of apartments, that the complex should have in order to minimize the maintenance cost, is.
  1. $4500$
  2. $5000$
  3. $1750$
  4. $3500$
  1. If the minimum maintenance cost is attain, then the maintenance cost for each apartment would be.
  1. $₹\ 1091.11$
  2. $₹\ 1200$
  3. $₹\ 1000$
  4. $₹\ 2000$
The Government declare that farmers can get ₹ 300 per quintal for their onions on 1st July and after that, the price will be dropped by ₹ 3 per quintal per extra day. Govind's father has 80 quintals of onions in the field on 1st July and he estimates that the crop is increasing at the rate of 1 quintal per day.

Image

(i) If $x$ is the number of days after $1^{\text {st }}$ July, then express price and quantity of onion and the revenue as a function of $x$.

(ii) Find the number of days after 1st July, when Govind's father attains maximum revenue.

(iii) On which day should Govind's father harvest the onions to maximize his revenue?

OR

Find the maximum revenue collected by Govind's father.

To teach the application of probability a maths teacher arranged a surprise game for 5 of his students namely Archit, Aadya, Mivaan, Deepak and Vrinda. He took a bowl containing tickets numbered 1 to 50 and told the students go one by one and draw two tickets simultaneously from the bowl and replace it after noting the numbers. Based on the above information, answer the following questions.
  1. Teacher ask Vrinda, what is the probability that both tickets drawn by Arch it shows even number?
  1. $\frac{1}{50}$
  2. $\frac{12}{49}$
  3. $\frac{13}{49}$
  4. $\frac{15}{49}$
  1. Teacher ask Mivaan, what is the probability that both tickets drawn by Aadya shows odd number?
  1. $\frac{1}{50}$
  2. $\frac{2}{49}$
  3. $\frac{12}{49}$
  4. $\frac{5}{49}$
  1. Teacher ask Deepak, what is the probability that tickets drawn by Mivaan, shows a multiple of 4 on one ticket and a multiple 5 on other ticket?
  1. $\frac{14}{245}$
  2. $\frac{16}{245}$
  3. $\frac{24}{245}$
  4. None of these.
  1. Teacher ask Arch it, what is the probability that tickets are drawn by Deepak, shows a prime number on one ticket and a multiple of 4 on other ticket?
  1. $\frac{3}{245}$
  2. $\frac{17}{245}$
  3. $\frac{18}{245}$
  4. $\frac{36}{245}$
  1. Teacher ask Aadya, what is the probability that tickets drawn by Vrinda, shows an even number on first ticket and an odd number on second ticket?
  1. $\frac{15}{98}$
  2. $\frac{25}{98}$
  3. $\frac{35}{98}$
  4. None of these.
A card is lost from a pack of $52$ cards. From the remaining cards two cards are drawn at random.
Based on the above information, answer the following questions.
  1. The probability of drawing two diamonds, given that a card of diamond is missing, is:
  1. $\frac{21}{425}$
  2. $\frac{22}{425}$
  3. $\frac{23}{425}$
  4. $\frac{1}{425}$
  1. The probability of drawing two diamonds, given that a card of heart is missing, is:
  1. $\frac{26}{425}$
  2. $\frac{22}{425}$
  3. $\frac{19}{425}$
  4. $\frac{23}{425}$
  1. Let A be the event of drawing two diamonds from remaining $51$ cards and $E_1, E_2, E_3$ and $E_4$ be the events that lost card is of diamond, club, spade and heart respectively, then the approximate value of $\displaystyle\sum_{\text{i}=1}^{4}\text{P(A|E}_\text{i})$ is:
  1. $0.17$
  2. $0.24$
  3. $0.25$
  4. $0.18$
  1. AU of a sudden, missing card is found and, then two cards are drawn simultaneously without replacement. Probability that both drawn cards are king is:
  1. $\frac{1}{52}$
  2. $\frac{1}{221}$
  3. $\frac{1}{121}$
  4. $\frac{2}{221}$
  1. If two cards are drawn from a well shuffled pack of $52$ cards, one by one with replacement, then probability of getting not a king in $1^{st}$ and $2^{nd}$ draw is:
  1. $\frac{144}{169}$
  2. $\frac{12}{169}$
  3. $\frac{64}{169}$
  4. None of these
The Government declare that farmers can get $₹\ 300$ per quintal for their onions on $1^{st}$ July and after that, the price will be dropped by $₹\ 3$ per quintal per extra day. Shyams father has $80$ quintal of onions in the field on $1^{st}$ July, and he estimates that crop is increasing at the rate of 1 quintal per day.

Based on the above information, answer the following questions.
  1. If $x$ is the number of days after $1^{st}$ July, then price and quantity of onion respectively can be expressed as.
  1. $₹(300 - 3x), (80 + x)$ quintals
  2. $₹(300 - 3x), (80 - x)$ quintals
  3. $₹(300 + x), 80$ quintals
  4. None of these
  1. Revenue $R$ as a function of $x$ can be represented as.
  1. $R(x) = 3x^2 - 60x - 24000$
  2. $R(x) = 3x^2 + 60x - 24000$
  3. $R(x) = 3x^2 + 40x - 16000$
  4. $R(x) = 3x^2 - 60x - 14000$
  1. Find the number of days after $1^{st}$ July, when Shyam's father attain maximum revenue.
  1. $10$
  2. $20$
  3. $12$
  4. $22$
  1. On which day should Shyam's father harvest the onions to maximise his revenue?
  1. $11^{th}$ July
  2. $20^{th}$ July
  3. $12^{th}$ July
  4. $22^{nd}$ July
  1. Maximum revenue is equal to.
  1. $₹\ 20,000$
  2. $₹\ 24,000$
  3. $₹\ 24,300$
  4. $₹\ 24,700$
In a diamond exhibition, a diamond is covered in cubical glass box having coordinates O(0, 0, 0), A(1, 0, 0), B(1, 2, 0), C(0, 2, 0), O'(0, 0, 3), A'(1, 0, 3), B'(1, 2, 3) and C'(0, 2, 3). Based on the above information, answer the following questions.
  1. Direction ratios of OA are:
  1. < 0, 1, 0 >
  2. < 1, 0, 0 >
  3. < 0, 0, 1 >
  4. None of these
  1. Equation of diagonal OB' is:
  1. $\frac{\text{x}}{1}=\frac{\text{y}}{2}=\frac{\text{z}}{3}$
  2. $\frac{\text{x}}{0}=\frac{\text{y}}{1}=\frac{\text{z}}{2}$
  3. $\frac{\text{x}}{1}=\frac{\text{y}}{0}=\frac{\text{z}}{2}$
  4. None of these
  1. Equation of plane OABC is:
  1. x = 0
  2. y = 0
  3. z = 0
  4. None of these
  1. Equation of plane O' A' B' C' is:
  1. x = 3
  2. y = 3
  3. z = 3
  4. z = 2
  1. Equation of plane ABB' A' is:
  1. x = 1
  2. y = 1
  3. z = 2
  4. x = 3