Explore topic-wise MCQs in Ordinary Differential Equations.

This section includes 14 Mcqs, each offering curated multiple-choice questions to sharpen your Ordinary Differential Equations knowledge and support exam preparation. Choose a topic below to get started.

1.

What is the value of the integral ( int_0^ frac{1}{c^x} dx )?

A. ( frac{1}{logc} )
B. ( frac{2}{logc} )
C. ( frac{ pi}{logc} )
D. ( frac{1}{2logc} )
Answer» B. ( frac{2}{logc} )
Discussion
2.

What is the value of ( int_0^ frac{1}{(1+x^4 )} dx )?

A. ( frac{ sqrt{2} pi}{4} )
B. ( frac{ sqrt{3} pi}{6} )
C. ( frac{ sqrt{2} pi}{6} )
D. ( frac{ sqrt{3} pi}{4} )
Answer» B. ( frac{ sqrt{3} pi}{6} )
Discussion
3.

( Gamma(m) * Gamma(1-m) = frac{ pi}{sin(m pi)} ). Check if the statement is True or False?

A. True
B. False
Answer» B. False
Discussion
4.

What is the value of ( Gamma( frac{9}{4}) )?

A. ( frac{5}{4} * frac{1}{4} * Gamma( frac{1}{4}) )
B. ( frac{9}{4} * frac{5}{4} * frac{1}{4} * Gamma( frac{1}{4}) )
C. ( frac{5}{4} * frac{1}{4} * Gamma( frac{5}{4}) )
D. ( frac{1}{4} * Gamma( frac{1}{4}) )
Answer» B. ( frac{9}{4} * frac{5}{4} * frac{1}{4} * Gamma( frac{1}{4}) )
Discussion
5.

What is the value of ( int_0^1 log(y)^8 dy )?

A. 5!
B. 6!
C. 7!
D. 8!
Answer» E.
Discussion
6.

What is the value of ( int_0^1 frac{x^2}{ sqrt{(1-x^4 )}} )?

A. ( frac{2 sqrt{ pi} Gamma( frac{5}{4})}{ ( frac{1}{4})} )
B. ( frac{2 pi Gamma( frac{3}{4})}{ Gamma( frac{1}{4})} )
C. ( frac{2 sqrt{ pi} Gamma( frac{3}{4})}{ Gamma( frac{1}{4})} )
D. ( frac{2 sqrt{ pi} Gamma( frac{3}{4})}{ Gamma( frac{5}{4})} )
Answer» D. ( frac{2 sqrt{ pi} Gamma( frac{3}{4})}{ Gamma( frac{5}{4})} )
Discussion
7.

What is the value of the integral ( int_0^{ 2} sqrt{tan( ) } , d )?

A. ( frac{ Gamma( frac{3}{4})^2}{ sqrt{ pi}} )
B. ( frac{ Gamma( frac{1}{4})^2}{ sqrt{ pi}} )
C. ( frac{ Gamma( frac{3}{4})^2}{ pi} )
D. ( frac{ Gamma( frac{1}{4})^2}{ pi} )
Answer» B. ( frac{ Gamma( frac{1}{4})^2}{ sqrt{ pi}} )
Discussion
8.

What is the value of ( int_0^ e^{-x^2} dx )?

A. ( sqrt{ pi} )
B. ( frac{ sqrt{ pi}}{ sqrt{2}} )
C. ( frac{ sqrt{ pi}}{2} )
D. ( frac{ pi}{2} )
Answer» D. ( frac{ pi}{2} )
Discussion
9.

What is the value of ( Gamma(5.5) )?

A. ( displaystyle frac{11*9*7*5*3*1* sqrt{ pi}}{32} )
B. ( displaystyle frac{9*7*5*3*1* sqrt{ pi}}{32} )
C. ( displaystyle frac{9*7*5*3*1* sqrt{ pi}}{64} )
D. ( displaystyle frac{11*9*7*5*3*1* sqrt{ pi}}{64} )
Answer» C. ( displaystyle frac{9*7*5*3*1* sqrt{ pi}}{64} )
Discussion
10.

Is the given statement true or false? ( displaystyle beta(m, n) = frac{ Gamma(m). Gamma(n)}{ Gamma(m+n)} )

A. True
B. False
Answer» B. False
Discussion
11.

What is the value of ( Gamma left( frac{1}{2} right) )?

A. ( sqrt{ pi} )
B. ( left( frac{ sqrt{ pi}}{ sqrt{2}} right) )
C. ( left( frac{ sqrt{ pi}}{2} right) )
D. ( frac{ pi}{2} )
Answer» B. ( left( frac{ sqrt{ pi}}{ sqrt{2}} right) )
Discussion
12.

Gamma function is said to be as Euler s integral of second kind.

A. True
B. False
Answer» B. False
Discussion
13.

Which of the following is not a definition of Gamma function?

A. ( Gamma(n) = n! )
B. ( Gamma(n) = int_{0}^{ infty} x^{n-1} e^{-x}dx )
C. ( Gamma(n+1) = n Gamma(n) )
D. ( Gamma(n) = int_{0}^{1} log left({1 atop y} right)^{n-1} )
Answer» B. ( Gamma(n) = int_{0}^{ infty} x^{n-1} e^{-x}dx )
Discussion
14.

(n+1) = n! can be used when ____________

A. n is any integer
B. n is a positive integer
C. n is a negative integer
D. n is any real number
Answer» C. n is a negative integer
Discussion