Rehmat Kazmi

Other Schools
Teacher and Tutor

Biography

With Demonstrated experience of 12 years in teaching for K-12 and Higher Education segment, tutor.

Education

Phd Physics
Other Schools

Educator Statistics

Numerade tutor for 6 years
154 Students Helped

Topics Covered

Understanding the Second Law of Thermodynamics: Key Principles
Exploring the Wonders of Atomic Physics: A Comprehensive Guide
Discover the Power of Gravitation: Exploring the Science Behind It
Mastering the Rotation of Rigid Bodies: Tips & Techniques
Explore the Fascinating Dynamics of Rotational Motion
Understanding Equilibrium and Elasticity: A Comprehensive Guide

Rehmat's Textbook Answer Videos

02:07
University Physics with Modern Physics

A $10.0$ -L gas tank containing 3.20 moles of ideal He gas at $20.0^{\circ} \mathrm{C}$ is placed inside a completely evacuated, insulated bell jar of volume 35.0 L. A small hole in the tank allows the He to leak out into the jar until the gas reaches a final equilibrium state with no more leakage. (a) What is the change in entropy of this system due to the leaking of the gas? (b) Is the process reversible or irreversible? How do you know?

Chapter 20: The Second Law of Thermodynamics
Rehmat Kazmi
03:46
College Physics

Using the given charge-to-mass ratios for electrons and protons, and knowing the magnitudes of their charges are equal, what is the ratio of the proton's mass to the electron's? (Note that since the charge-to-mass ratios are given to only three-digit accuracy, your answer may differ from the accepted ratio in the fourth digit.)

Chapter 30: Atomic Physics
Rehmat Kazmi
02:12
College Physics

(a) Calculate the mass of a proton using the charge-tomass ratio given for it in this chapter and its known charge.
(b) How does your result compare with the proton mass given in this chapter?

Chapter 30: Atomic Physics
Rehmat Kazmi
01:35
College Physics

Look up the values of the quantities in $a_{\mathrm{B}}=\frac{h^{2}}{4 \pi^{2} m_{e} k q_{e}^{2}}$

Chapter 30: Atomic Physics
Rehmat Kazmi
01:15
College Physics

Find the radius of a hydrogen atom in the $n=2$ state according to Bohr's theory.

Chapter 30: Atomic Physics
Rehmat Kazmi
01:43
College Physics

Show that $(13.6 \mathrm{eV}) / h c=1.097 \times 10^{7} \mathrm{m}=R$ (Rydberg's constant), as discussed in the text.

Chapter 30: Atomic Physics
Rehmat Kazmi
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