All Courses
Get the App Signup / Login
Sign in Open App
Civil Engineering (CE) Exam  >  Civil Engineering (CE) Tests  >  Engineering Mathematics  >  Test: Simpson's 1/3rd Rule - Civil Engineering (CE) MCQ

Test: Simpson's 1/3rd Rule - Civil Engineering (CE) MCQ


Test Description

10 Questions MCQ Test Engineering Mathematics - Test: Simpson's 1/3rd Rule

Test: Simpson's 1/3rd Rule for Civil Engineering (CE) 2024 is part of Engineering Mathematics preparation. The Test: Simpson's 1/3rd Rule questions and answers have been prepared according to the Civil Engineering (CE) exam syllabus.The Test: Simpson's 1/3rd Rule MCQs are made for Civil Engineering (CE) 2024 Exam. Find important definitions, questions, notes, meanings, examples, exercises, MCQs and online tests for Test: Simpson's 1/3rd Rule below.
Solutions of Test: Simpson's 1/3rd Rule questions in English are available as part of our Engineering Mathematics for Civil Engineering (CE) & Test: Simpson's 1/3rd Rule solutions in Hindi for Engineering Mathematics course. Download more important topics, notes, lectures and mock test series for Civil Engineering (CE) Exam by signing up for free. Attempt Test: Simpson's 1/3rd Rule | 10 questions in 30 minutes | Mock test for Civil Engineering (CE) preparation | Free important questions MCQ to study Engineering Mathematics for Civil Engineering (CE) Exam | Download free PDF with solutions
Test: Simpson's 1/3rd Rule - Question 1
Save

Consider the definite integral  Let Ie be the exact value of the integral. If the same integral is estimated using Simpson’s rule with 10 equal subintervals, the value is Is. The percentage error is defined as e = 100 × (Ie - Is)/Ie The value of e is

Detailed Solution for Test: Simpson's 1/3rd Rule - Question 1

Simpson's rule is given by -

h = width of interval / step length
yo, y1 ........ yn  - ordinates corresponding to xo, x1 ........ xn
Error = Exact value - approximate value
Calculation:
Given:
Since the given function is second-degree polynomial.
Simpson's 1/3 rd rule also uses a second degree polynomial for approximation.
Hence there will be no error in the result
The value of Is and Ie will be the same and hence 
e = 100 × (Ie - Is)/Ie = 0

Test: Simpson's 1/3rd Rule - Question 2
Save

Find the area of the traverse using Simpson’s rule if d= 12 m and the values of ordinates are 2.25m, 1.46m, 3.23m, 4.46m.

Detailed Solution for Test: Simpson's 1/3rd Rule - Question 2

The formula for Simpson’s rule can be given as Δ = (d/3)*((O0+O4) + 4*(O1+O3) + 2*(O2+O4)). On substitution, we get
Δ = (12/3)* ((2.25+4.46) + 4*(2.25+3.23) + 2*(1.46+4.46))
Δ = 161.88 sq. m.

1 Crore+ students have signed up on EduRev. Have you? Download the App
Test: Simpson's 1/3rd Rule - Question 3
Save

Simpson’s 1/3 rule is used to integrate the function  between x = 0 and x = 1 using the least number of equal sub-intervals. The value of the integral is

Detailed Solution for Test: Simpson's 1/3rd Rule - Question 3


Test: Simpson's 1/3rd Rule - Question 4
Save

The table below gives values of function F(x) obtained for values of x at intervals of 0.25.

The value of the integral of the function between the limits 0 to 1 using Simpson's rule is
Detailed Solution for Test: Simpson's 1/3rd Rule - Question 4

The Simpson’s rule is given by,

h –Width of interval / Step length
y0, y1 …yn – Ordinates corresponding to x0, x1, ……, xn
Calculation:
Given:

h = 0.25

Test: Simpson's 1/3rd Rule - Question 5
Save

The results obtained are greater than which among the following?
Detailed Solution for Test: Simpson's 1/3rd Rule - Question 5

Due to the presence of curvature at the boundary whether it may be concave or convex towards the base line, the results are depended. It makes them greater than that obtained from the trapezoidal rule.

Test: Simpson's 1/3rd Rule - Question 6
Save

For step-size, Δx = 0.4, the value of the following integral using Simpson’s 1/3 rule is
Test: Simpson's 1/3rd Rule - Question 7
Save

The integral  with b > a > 0 is evaluated both analytically and numerically using Simpson's rule with three points. Which of the following relationship is correct ? If I is the exact value of integral obtained analytically and J is the approximate value obtained using Simpson's rule.
Detailed Solution for Test: Simpson's 1/3rd Rule - Question 7

Truncation error:
The following table shows the different methods of numerical integration and degree of polynomials for which they will produce exact results (i.e. no error):

Explanation:
Given,

Here,
f(x) = x2 → Quadratic polynomial.
From the above table, Simpson's rule will integrate exactly the polynomials of degree ≤ 3.
∴ Error = 0
Since,
Error = Exact - Approximate
⇒ I - J = 0
⇒ I = J

Test: Simpson's 1/3rd Rule - Question 8
Save

Find the area of segment if the values of co-ordinates are given as 119.65m, 45.76m and 32.87m. They are placed at a distance of 2 m each.
Detailed Solution for Test: Simpson's 1/3rd Rule - Question 8

The area of the segment can be found out by using,
A = (2/3)*(O1-(O0+O2/2)). On substitution, we get
A = (2/3)*(45.76-(119.65+32.87/2))
A = -20.34 Sq. m (negative sign has no significance)
A = 20.34 sq. m.

Test: Simpson's 1/3rd Rule - Question 9
Save

The magnitude of the error (correct to two decimal places) in the estimation of following integral using Simpson’s 1/3 rule. Take the step length as 1
Test: Simpson's 1/3rd Rule - Question 10
Save

In which of the following cases, Simpson’s rule is adopted?
Detailed Solution for Test: Simpson's 1/3rd Rule - Question 10

Even though Simpson’s rule assumes that short lengths of boundary between the ordinates are parabolic arcs, this method is more accurate for the case when straights act as a parallel to each other.

65 videos|120 docs|94 tests
Join Course
Information about Test: Simpson's 1/3rd Rule Page
In this test you can find the Exam questions for Test: Simpson's 1/3rd Rule solved & explained in the simplest way possible. Besides giving Questions and answers for Test: Simpson's 1/3rd Rule, EduRev gives you an ample number of Online tests for practice

Top Courses for Civil Engineering (CE)

65 videos|120 docs|94 tests
Join Course
Download as PDF

Top Courses for Civil Engineering (CE)

Important Questions for Simpson's 1/3rd Rule

Find all the important questions for Simpson's 1/3rd Rule at EduRev.Get fully prepared for Simpson's 1/3rd Rule with EduRev's comprehensive question bank and test resources. Our platform offers a diverse range of question papers covering various topics within the Simpson's 1/3rd Rule syllabus. Whether you need to review specific subjects or assess your overall readiness, EduRev has you covered. The questions are designed to challenge you and help you gain confidence in tackling the actual exam. Maximize your chances of success by utilizing EduRev's extensive collection of Simpson's 1/3rd Rule resources.

Simpson's 1/3rd Rule MCQs with Answers

Prepare for the Simpson's 1/3rd Rule within the Civil Engineering (CE) exam with comprehensive MCQs and answers at EduRev. Our platform offers a wide range of practice papers, question papers, and mock tests to familiarize you with the exam pattern and syllabus. Access the best books, study materials, and notes curated by toppers to enhance your preparation. Stay updated with the exam date and receive expert preparation tips and paper analysis. Visit EduRev's official website today and access a wealth of videos and coaching resources to excel in your exam.

Online Tests for Simpson's 1/3rd Rule Engineering Mathematics

Practice with a wide array of question papers that follow the exam pattern and syllabus. Our platform offers a user-friendly interface, allowing you to track your progress and identify areas for improvement. Access detailed solutions and explanations for each test to enhance your understanding of concepts. With EduRev's Online Tests, you can build confidence, boost your performance, and ace Simpson's 1/3rd Rule with ease. Join thousands of successful students who have benefited from our trusted online resources.
© EduRev
Education Revolution
Follow Us
Signup to see your scores go up within 7 days!
Access 1000+ FREE Docs, Videos and Tests
Takes less than 10 seconds to signup