All Courses
Get the App Signup / Login
Sign in Open App
Physics Exam  >  Physics Tests  >  Topic wise Tests for IIT JAM Physics  >  Application Of Schrodinger Wave Equation – MSQ - Physics MCQ

Application Of Schrodinger Wave Equation – MSQ - Physics MCQ


Test Description

10 Questions MCQ Test Topic wise Tests for IIT JAM Physics - Application Of Schrodinger Wave Equation – MSQ

Application Of Schrodinger Wave Equation – MSQ for Physics 2024 is part of Topic wise Tests for IIT JAM Physics preparation. The Application Of Schrodinger Wave Equation – MSQ questions and answers have been prepared according to the Physics exam syllabus.The Application Of Schrodinger Wave Equation – MSQ MCQs are made for Physics 2024 Exam. Find important definitions, questions, notes, meanings, examples, exercises, MCQs and online tests for Application Of Schrodinger Wave Equation – MSQ below.
Solutions of Application Of Schrodinger Wave Equation – MSQ questions in English are available as part of our Topic wise Tests for IIT JAM Physics for Physics & Application Of Schrodinger Wave Equation – MSQ solutions in Hindi for Topic wise Tests for IIT JAM Physics course. Download more important topics, notes, lectures and mock test series for Physics Exam by signing up for free. Attempt Application Of Schrodinger Wave Equation – MSQ | 10 questions in 45 minutes | Mock test for Physics preparation | Free important questions MCQ to study Topic wise Tests for IIT JAM Physics for Physics Exam | Download free PDF with solutions
*Multiple options can be correct
Application Of Schrodinger Wave Equation – MSQ - Question 1
Save

Consider two cases of one dimensional potential well. The first case is an infinite potential will  V = 0,  for  a < x < 0  the second case is a finite potential well. Which of the following is true? [for  E < V0]

Detailed Solution for Application Of Schrodinger Wave Equation – MSQ - Question 1

The correct answers are:  for infinite case &  for finite case  for infinite case &   for the finite case 

Application Of Schrodinger Wave Equation – MSQ - Question 2
Save

The Steady-state form of Schrodinger wave equation is _____________ 

Detailed Solution for Application Of Schrodinger Wave Equation – MSQ - Question 2

The Steady-state Schrodinger Wave equation is a linear in the wave function Ψ. It means, that no term has \Psi with a degree greater than 1.

1 Crore+ students have signed up on EduRev. Have you? Download the App
*Multiple options can be correct
Application Of Schrodinger Wave Equation – MSQ - Question 3
Save

For a wave function ψ(x) , its time dependence can be seen from  Select the correct option.

Detailed Solution for Application Of Schrodinger Wave Equation – MSQ - Question 3


 is normalised, so is  & neither of has any time dependence.

The correct answers are: If  is normalised, then  has to be normalised, Neither of  has any time dependence

*Multiple options can be correct
Application Of Schrodinger Wave Equation – MSQ - Question 4
Save

Consider the solutions to particle in one dimensional box of length, L.

Which of the following is true for the group of functions  ψ2(x)
Detailed Solution for Application Of Schrodinger Wave Equation – MSQ - Question 4

The solution of a symmetric infinite potential well consists of 

Now, any function can be written as a linear combination of these functions (sin and cos)

 They form a complete let

The correct answers are: They are alternately even and odd with respect to the centre of the well, As we go up in energy, each successive state has one more node. i.e.  ψ1(x) has none, ψ2(x) has one, ψ3(x) has 2 and so on, They are mutually orthogonal, They form a complete set

*Multiple options can be correct
Application Of Schrodinger Wave Equation – MSQ - Question 5
Save

Choose the correct option.
For the case of particle in a one dimensional box.
Detailed Solution for Application Of Schrodinger Wave Equation – MSQ - Question 5



The correct answers are: 

*Multiple options can be correct
Application Of Schrodinger Wave Equation – MSQ - Question 6
Save

For the above cases of one-dimensional infinite and finite potential wells which of the following is true?
Detailed Solution for Application Of Schrodinger Wave Equation – MSQ - Question 6

Energy levels are same!

The correct answer is: Energy levels are same,  in both cases.

*Multiple options can be correct
Application Of Schrodinger Wave Equation – MSQ - Question 7
Save

For a particle in a one dimensional box,

There is zero probability of finding the particle at
Detailed Solution for Application Of Schrodinger Wave Equation – MSQ - Question 7



Probability is 0 at x = 0 & a
For 

Probability density is zero at x = 0, a/2 , a

Probability density zero at x = 0, 

The correct answers are: 

*Multiple options can be correct
Application Of Schrodinger Wave Equation – MSQ - Question 8
Save

Which of the following is true in case of a free particle?
Detailed Solution for Application Of Schrodinger Wave Equation – MSQ - Question 8

The Schrodinger equation solution are 

∴  momentum eigenfunction.

The correct answers are: The Schrodinger equation yields the solution to be  (linear combination of the two), The solutions of the Schrodinger equation are both energy and momentum eigenfunctions

*Multiple options can be correct
Application Of Schrodinger Wave Equation – MSQ - Question 9
Save

Which of the following is true for a quantum harmonic oscillator?
Detailed Solution for Application Of Schrodinger Wave Equation – MSQ - Question 9

 for a harmonic oscillator

 

∴   evenly spaced.

The correct answers are: A spectrum of evenly spaced energy levels, A non zero probability of finding the oscillator outside the classical turning points

Application Of Schrodinger Wave Equation – MSQ - Question 10
Save

 Which of the following can be the solution of Schrondinger's equation?
Detailed Solution for Application Of Schrodinger Wave Equation – MSQ - Question 10

Concept:

  • Schrodinger wave equation is a mathematical expression that describes the energy and position of the electron in space and time, taking into account the matter wave nature of the electron inside an atom.

  • It is based on three considerations. They are:

    1. Classical plane wave equation, (wave which satisfies 
    2. Broglie’s Hypothesis of matter-wave, (the wavelength of matter-wave is inversely proportional to the linear momentum.)
    3. Conservation of Energy. (total energy = kinetic + potential)



Schrodinger equation gives us a detailed account of the form of the wave functions or probability waves that control the motion of some smaller particles.

The equation also describes how these waves are influenced by external factors.

Moreover, the equation makes use of the energy conservation concept that offers details about the behavior of an electron that is attached to the nucleus.

Explanation:

  1. For a wave to be a solution of Schrodinger's equation it must satisfy the following conditions:
    1. The wave function must be a single value.
    2. The wave function must be continuous.
    3. The wave function must be finite.
    4. The wave function must be differentiable at every point in space.
      Hence the correct option is 3.
217 tests
Join Course
Information about Application Of Schrodinger Wave Equation – MSQ Page
In this test you can find the Exam questions for Application Of Schrodinger Wave Equation – MSQ solved & explained in the simplest way possible. Besides giving Questions and answers for Application Of Schrodinger Wave Equation – MSQ, EduRev gives you an ample number of Online tests for practice
Download as PDF

Important Questions for Application Of Schrodinger Wave Equation – MSQ

Find all the important questions for Application Of Schrodinger Wave Equation – MSQ at EduRev.Get fully prepared for Application Of Schrodinger Wave Equation – MSQ with EduRev's comprehensive question bank and test resources. Our platform offers a diverse range of question papers covering various topics within the Application Of Schrodinger Wave Equation – MSQ 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 Application Of Schrodinger Wave Equation – MSQ resources.

Application Of Schrodinger Wave Equation – MSQ MCQs with Answers

Prepare for the Application Of Schrodinger Wave Equation – MSQ within the Physics 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 Application Of Schrodinger Wave Equation – MSQ Topic wise Tests for IIT JAM Physics

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 Application Of Schrodinger Wave Equation – MSQ 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