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Test: First Order Differential Equations - 1 - Civil Engineering (CE) MCQ


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10 Questions MCQ Test Engineering Mathematics - Test: First Order Differential Equations - 1

Test: First Order Differential Equations - 1 for Civil Engineering (CE) 2024 is part of Engineering Mathematics preparation. The Test: First Order Differential Equations - 1 questions and answers have been prepared according to the Civil Engineering (CE) exam syllabus.The Test: First Order Differential Equations - 1 MCQs are made for Civil Engineering (CE) 2024 Exam. Find important definitions, questions, notes, meanings, examples, exercises, MCQs and online tests for Test: First Order Differential Equations - 1 below.
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Test: First Order Differential Equations - 1 - Question 1

Second Derivative of sin(x) with respect to x is

Detailed Solution for Test: First Order Differential Equations - 1 - Question 1

Concept:


  • where ‘x’ is an algebraic function
  • The second derivative is represented as

Calculation:

Given:

y = sin x

Now second derivative of sin(x) with respect to x is

Test: First Order Differential Equations - 1 - Question 2

The derivative of f(x) = cos(x) can be estimated using the approximationThe percentage error is calculated as The percentage error in the derivative of f(x) at x = π/6 radian, choosing h = 0.1 radian, is

Detailed Solution for Test: First Order Differential Equations - 1 - Question 2

Concept:

Calculation:

Using: cos a – cos b = - 2 sin [(a + b)/2] × sin [(a - b)/2]

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*Answer can only contain numeric values
Test: First Order Differential Equations - 1 - Question 3

A differential equation didis applicable over −10 <  t < 10. If i(4) = 10, then i(−5) is _______.    (Important - Enter only the numerical value in the answer)


Detailed Solution for Test: First Order Differential Equations - 1 - Question 3

Concept:

Linear Differential Equation: Linear differential equations are those in which the dependent variable, its derivatives occur only in the first degree and they are not multiplied together. It is of the form:

Where, k1, k2, …kn are the constants.

The solution of the equation is given as:

y = C.F 

where C.F is the complementary function.

The above linear differential equation in the symbolic form is represented as

(Dn + k1 Dn-1 + k2 Dn-2 +…+ kn) y = 0

For different roots of the auxiliary equation, the solution (complementary function) of the differential equation is as shown below.

Calculation:


(D − 0.2)i(t) = 0
D = 0.2
i(t) = k.e0.2t, −10 < t < 10

At t = 4; 10 = K.e0.8

K = 4.493
∴ i(−5) = 4.493 × e−1
i(−5) = 1.65

Test: First Order Differential Equations - 1 - Question 4

The families of curves represented by the solution of the equation

for n = −1 and n = +1, respectively, are

Detailed Solution for Test: First Order Differential Equations - 1 - Question 4


At, n = -1

Integrating

ln y = -ln x + ln c

Ln (xy) = ln c

xy = c

at, n = +1

Ydy = -xdx

Integrating

x2 + y2 = c

*Answer can only contain numeric values
Test: First Order Differential Equations - 1 - Question 5

Given the ordinary differential equationWith y (0) = 0 and, the value of y(1) is ______ (correct to two decimal places).     (Important - Enter only the numerical value in the answer)


Detailed Solution for Test: First Order Differential Equations - 1 - Question 5



Y (1) = -?

∵ D2y + Dy - 6y = 0

Characteristic equation will be -

m2 + m - 6 = 0

m2 + 3m - 2m - 6 = 0

m = -3, 2

Since roots are real & different thus:

y(x) = C1e−3x + C2e2x

Given y (0) = 0

0 = C1 + C2      ----(1)

1 = -3C1 + 2C2      ----(2)

By equation (1) & (2)

5C1 = -1


= 1.467

Y (1) = 1.47

Test: First Order Differential Equations - 1 - Question 6

What is the complete solution for the equation x (y - z) p + y (z - x) q = z (x - y)?

Detailed Solution for Test: First Order Differential Equations - 1 - Question 6

Concept:
Linear Partial Differential Equation of First Order: 
A linear partial differential equation of the first order, commonly known as Lagrange's Linear equation, is of the form Pp + Qq = R where P, Q and R are functions of x, y, z. This equation is called a quasi-linear equation. When P, Q and R are independent of z it is known as linear equation.
Thus, to solve the equation of the form Pp + Qq = R

  1. form the subsidiary equations as dx/P = dy/Q = dz/R
  2. solve these simultaneous equations by any the method giving u = a and v = b as its solutions.
  3. write the complete solution as φ (u, v) = 0 or u = f (v).

Calculations:

Given partial differential equation, x(y − z)p + y(z − x)q = z(x − y)
Hence the subsidiary equation is,
So, using the property,, it can be written as 

 

∴ dx + dy + dz = 0  and by integrating we get, x + y + z = a

For the second function, using multipliers as 1/x, 1/y, 1/z and using the property,we get,

 and by integrating we get, lnx + lny + lnz = lnb ⇒ xyz = b

Hence, the solution is φ(u, v) = 0 ⇒ φ(x + y + z, xyz) = 0

Test: First Order Differential Equations - 1 - Question 7

The solution ofwith the condition y(1) = 6/5 is

Detailed Solution for Test: First Order Differential Equations - 1 - Question 7


This is single order differential equation of:


then  P = 1/x and Q = x3

then solution of equation

⇒ y(IF) = ∫Q(IF)dx + C

Applying boundary condition y(1) = 6/5

Test: First Order Differential Equations - 1 - Question 8

The general solution of the differential equation

Detailed Solution for Test: First Order Differential Equations - 1 - Question 8


sec2ydy = cosec2x.dx
tan⁡ y = −cot ⁡x + c
tan⁡ y + cot ⁡x = c

Test: First Order Differential Equations - 1 - Question 9

A curve passes through the point (x = 1, y = 0) and satisfies the differential equationThe equation that describes the curve is

Detailed Solution for Test: First Order Differential Equations - 1 - Question 9


y2 = t

The above is linear differential equation of the form

Integrating factor

Solution is given by:

Substitute t = y2

At, x = 1, y = 0

0 = -e-1 + c

c = e-1 = y­e

substituting in the solution

Taking log both sides

Test: First Order Differential Equations - 1 - Question 10

The solution of the differential equation (1 + y2)dx = (tan-1 y - x)dy is

Detailed Solution for Test: First Order Differential Equations - 1 - Question 10

Concept:

The standard form of a first-order linear differential equation is,

Form 1: 

Where P and Q are the functions of x.

Integrating factor, IF = e∫Pdx

Now, the solution for the above differential equation is,

y(IF) = ∫IF.Qdx + C

Form 2: 


Where P and Q are the functions of y.

Integrating factor, IF = e∫Pdy

Now, the solution for the above differential equation is,

x(IF) = ∫IF.Qdy + C

Calculation:

The given differential equation is,

(1 + y2) dx = (tan-1 y - x) dy

Now, it is in the standard form of a first-order linear differential equation.

Integrating factor:


Now, the solution of the given differential equation is

Now, the solution becomes

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