Chemistry Exam  >  Chemistry Tests  >  Physical Chemistry  >  Test: Schrodinger Equation (Time Dependent Form) - Chemistry MCQ

Test: Schrodinger Equation (Time Dependent Form) - Chemistry MCQ


Test Description

10 Questions MCQ Test Physical Chemistry - Test: Schrodinger Equation (Time Dependent Form)

Test: Schrodinger Equation (Time Dependent Form) for Chemistry 2024 is part of Physical Chemistry preparation. The Test: Schrodinger Equation (Time Dependent Form) questions and answers have been prepared according to the Chemistry exam syllabus.The Test: Schrodinger Equation (Time Dependent Form) MCQs are made for Chemistry 2024 Exam. Find important definitions, questions, notes, meanings, examples, exercises, MCQs and online tests for Test: Schrodinger Equation (Time Dependent Form) below.
Solutions of Test: Schrodinger Equation (Time Dependent Form) questions in English are available as part of our Physical Chemistry for Chemistry & Test: Schrodinger Equation (Time Dependent Form) solutions in Hindi for Physical Chemistry course. Download more important topics, notes, lectures and mock test series for Chemistry Exam by signing up for free. Attempt Test: Schrodinger Equation (Time Dependent Form) | 10 questions in 30 minutes | Mock test for Chemistry preparation | Free important questions MCQ to study Physical Chemistry for Chemistry Exam | Download free PDF with solutions
Test: Schrodinger Equation (Time Dependent Form) - Question 1

For a quantum wave particle, E = _______

Detailed Solution for Test: Schrodinger Equation (Time Dependent Form) - Question 1

The Energy of a wave particle is given as ℏ ω while the momentum of the particle is given as ℏ k. These are the desired relation.

Test: Schrodinger Equation (Time Dependent Form) - Question 2

Which of the following can be a wave function?

Detailed Solution for Test: Schrodinger Equation (Time Dependent Form) - Question 2

Out of all the given options, sin x is the only function, that is continuous and single-valued. All the rest of the functions are either discontinuous or double-valued.

1 Crore+ students have signed up on EduRev. Have you? Download the App
Test: Schrodinger Equation (Time Dependent Form) - Question 3

Find the function, f(x), for which X  where a is the real quantity.

Detailed Solution for Test: Schrodinger Equation (Time Dependent Form) - Question 3

Now, given that, X

df/f = -xdx/a2
ln f = -x2/2a2 + C
f = ke-x2/2a2.

Test: Schrodinger Equation (Time Dependent Form) - Question 4

Any wave function can be written as a linear combination of ______

Detailed Solution for Test: Schrodinger Equation (Time Dependent Form) - Question 4

A wave function describes the state of a particle. It does not have a physical significance. Moreover, it can be written as a linear combination of Eigen functions, i.e., Ψ(x) = AF(x) + BG(x).

Test: Schrodinger Equation (Time Dependent Form) - Question 5

Which of the following can be a solution of Schrodinger equation?

Detailed Solution for Test: Schrodinger Equation (Time Dependent Form) - Question 5

Out of the following, only the below diagram can be the solution of the Schrodinger Wave equation. because other diagram does not have a continuous dΨ/dx. Some diagrams are double valued and discontinuous also.

Test: Schrodinger Equation (Time Dependent Form) - Question 6

Which of the following is the correct expression for the Schrödinger wave function?

Detailed Solution for Test: Schrodinger Equation (Time Dependent Form) - Question 6

The correct expression for the Schrödinger wave equation isSchrodinger equation is a basic principle in itself.

Test: Schrodinger Equation (Time Dependent Form) - Question 7

Which of the following is not a characteristic of wave function?

Detailed Solution for Test: Schrodinger Equation (Time Dependent Form) - Question 7

The wave function has no physical significance. It merely helps in determining the state of a particle. It is the square of the wave function that has a physical significance.

Test: Schrodinger Equation (Time Dependent Form) - Question 8

Schrodinger Wave equation can be derived from Principles of Quantum Mechanics.

Detailed Solution for Test: Schrodinger Equation (Time Dependent Form) - Question 8

Schrodinger equation is a basic principle in itself. It cannot be derived from other principles of physics. Only, it can be verified with other principles.

Test: Schrodinger Equation (Time Dependent Form) - Question 9

dΨ/dx must be zero.

Detailed Solution for Test: Schrodinger Equation (Time Dependent Form) - Question 9

For a wave function, dΨ/dx, must be continuous and single-valued everywhere, just like Ψ. Also, Ψ must be normalizable.

Test: Schrodinger Equation (Time Dependent Form) - Question 10

The Schrödinger is a differential equation.

Detailed Solution for Test: Schrodinger Equation (Time Dependent Form) - Question 10

The Schrodinger wave equation generated is a partial differential equation. It is a basic principle in itself and cannot be derived from other principles of physics. There are two types of partial differential equation time dependent form and steady-state form.

83 videos|142 docs|67 tests
Information about Test: Schrodinger Equation (Time Dependent Form) Page
In this test you can find the Exam questions for Test: Schrodinger Equation (Time Dependent Form) solved & explained in the simplest way possible. Besides giving Questions and answers for Test: Schrodinger Equation (Time Dependent Form), EduRev gives you an ample number of Online tests for practice
83 videos|142 docs|67 tests
Download as PDF