Toggle navigation
Home
Article Category
Question Papers
General Knowlege
Popular Pages
Multiple Choice Question in 049
Multiple Choice Question in
Multiple Choice Question in 2016
Multiple Choice Question in TRADES-INSTRUCTOR---GR-II---SMITHY---TECHNICAL-EDUCATION
Multiple Choice Question in -current-affairs-2016
Question Answer in ASSISTANT-PROFESSOR---COMPUTER-SCIENCE-AND-ENGINEERING---TECHNICAL-EDUCATION
Multiple Choice Question in ASSISTANT-PROFESSOR---COMPUTER-SCIENCE-AND-ENGINEERING---TECHNICAL-EDUCATION
Multiple Choice Question in english
Multiple Choice Question in abbreviations-abbreviations-m
Multiple Choice Question in SSC CHSL 7 March 2018 Morning Shift
Multiple Choice Question in 072/2016
Question Answer Bank
Multiple Choice Question Bank
Question Answer Category
Multiple Choice Question Category
Home
->
Multiple Choice Questions
1. which of the following is not true for impulse function δ(t)?
(A): δ(t) = 0 for r ≠ 0
(B): δ(t) is undefined for t = 0
(C): Laplace transform is
Previous Question
Show Answer
Next Question
Add Tags
Report Error
Show Marks
Write Comment
Type in
(Press Ctrl+g to toggle between English and the chosen language)
Post reply
Comments
Tags
Show Similar Question And Answers
QA->Consider a Program Graph (PG) with statements as nodes and control as edges. Which of the following is not true for any PG?....
QA->In Object Oriented Software Design, which of the following is not true?....
QA->A ball of mass of 10gm strikes a wall with a velocity of 5m/s and rebounds making a perfectly elastic collision. The impulse is then given by :....
QA->The mechanical efficiency of an impulse turbine is :....
QA->Which is not helpful for delta formation?....
MCQ->If h1[n] = 3δ[n] + δ[n - 1], h2[n] = 2δ[n] + δ[n - 2]h3[n] = δ[n] - 3δ[n - 1] + 7δ[n - 4] + 6δ[n - 6]h[n] = h1[n] h2[n] + h3[n] h1[n] has value....
MCQ->Assertion (A): Laplace transform of impulse function is equal to area under the impulse.Reason (R): An impulse function whose area is unity is called unit impulse function.....
MCQ-> In the following question the symbols © , $$\delta$$, $$\bigstar$$ and % are used with the following meaning as illustrated below. ‘P $$\delta$$ Q means ‘P is not greater than Q’ ‘P % Q’ means ‘P is not smaller than Q’ ‘P © Q’ means ‘P is neither greater than nor smaller than Q’ ‘P $ Q’ means ‘P is greater than Q’ ‘P $$\bigstar$$ Q’ means ‘P is smaller than Q’ Now in each of the following questions assuming the given statements to be true find which of the two Conclusions I and II given below them is/are definitely true ? Give answer a:If only Conclusion I is true b:If only Conclusion II is true c:If either Conclusion I or II is true d:If neither Conclusion I nor II is true e:If both Conclusion I and II are trueStatement R$J, J%M, M © K Conclusions I.K © J II.K $$\bigstar$$J....
MCQ-> In the following question the symbols $$\delta$$, %, $, # and @ are used with the following meanings as illustrated below ‘P $ Q’ means ‘P is not smaller than Q’ ‘P @ Q’ means ‘P is not greater than Q’ ‘P $$\delta$$ Q’ means ‘P is neither smaller than nor equal to Q’ ‘P # Q’ means ‘P is neither greater than nor equal to Q’ ‘P % Q’ means ‘P is neither smaller than nor greater than Q’ Now in each of the following question assuming the given statements to be true find which of the two Conclusions I and II given below them is/are definitely true ?Statements F @ N, N $$\delta$$ R, H @ R Conclusions I.H $$’\delta$$ N II.F # R....
MCQ-> In the following questions the symbols @,$, $$\bigstar$$, # and $$\delta$$ are used with the following meaning as illustrated below: ‘P $ Q’ means ‘P is not smaller than Q’ ‘P @ Q’ means ‘P is neither smaller than nor equal to Q’ ‘P # Q’ means ‘P is neither greater than nor equal to Q’ ‘P $$\delta$$ Q’ means ‘P is neither greater than nor smaller than Q’ ‘P $$\bigstar$$ Q’ means ‘P is not greater than Q’ Now in each of the following question assuming the given statements to be true find which of the four conclusions I,II,III and IV given below them is/are definitely true and give your answer accordingly.Statements: H @ T, T # F, F $$\delta$$ E, E $$\bigstar$$ V. Conclusions:I. V $ F II. E @ T III. H @ V IV. T # V....
×
×
Type The Issue
×
Your Marks
Terms And Service:We do not guarantee the accuracy of available data ..We Provide Information On Public Data.. Please consult an expert before using this data for commercial or personal use
Powered By:Omega Web Solutions
© 2002-2017 Omega Education PVT LTD...
Privacy
|
Terms And Conditions