Aniket Bajaj

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Biography

I'm self motivated and hard working individual. I believe in student satisfaction, quality work and i'll complete the given task on time. I can save your time and your money. Looking forward to work for you so that I can show my skills & creativity to all of you

Education

BA Physics
Other Schools

Educator Statistics

Numerade tutor for 4 years
476 Students Helped

Topics Covered

Mastering Motion: Achieving Efficiency Along a Straight Line
Mastering Newton's Laws: Tips for Applying Them Effectively
Discovering the Fundamentals: Newton's Laws of Motion Explained
Calculating Electrical Power: Resistance and EMF
Discover the Fascinating World of Nuclear Physics
Exploring the Wonders of Atomic Physics: A Comprehensive Guide
Explore the Fascinating World of Wave Optics - Unleash Its Potential
Unlocking the Power of Electric Potential: Exploring its Benefits
Electromagnetic Induction: Understanding the Science and Applications
Understanding Alternating Current: A Comprehensive Guide
Spectroscopy
Exploring the Fascinating World of Quantum Physics
Oscillatory Motion
Understanding the Second Law of Thermodynamics: Key Principles

aniket's Textbook Answer Videos

01:38
University Physics with Modern Physics

A car travels in the $+x$-direction on a straight and level road. For the first 4.00 s of its motion, the average velocity of the car is $v_{av-x}$ = 6.25 m/s. How far does the car travel in 4.00 s?

Chapter 2: Motion Along a Straight Line
Section 1: Displacement, Time, and Average Velocity
Aniket Bajaj
05:31
University Physics with Modern Physics In SI Units

What is the thermal efficiency of an engine that takes $n$ moles of diatomic ideal gas through the cycle $1 \rightarrow 2 \rightarrow 3 \rightarrow 4 \rightarrow 1$ shown in Fig. $\mathbf{P 2 0 . 3 6 ?}$

Chapter 20: The Second Law of Thermodynamics
Aniket Bajaj
05:20
Mechanical Vibrations in SI Units

Derive the equation of motion using the principle of conservation of energy for each of the systems shown in Figs. 2.85 and 2.86 .

Chapter 2: Free Vibration of Single-Degreeof-Freedom Systems
Aniket Bajaj
02:39
Mechanical Vibrations in SI Units

Find the response of a damped spring-mass system subjected to a step function of magnitude $F_{0}$ by using the method of Laplace transformation.

Chapter 4: Vibration Under General Forcing Conditions
Aniket Bajaj
02:02
Mechanical Vibrations in SI Units

An electric motor is mounted at the end of a cantilever beam. The beam is observed to deflect by $0.02 \mathrm{~m}$ when the motor runs at a speed of $1500 \mathrm{rpm}$. By neglecting the mass and damping of the beam, determine the speed of the motor so that the dynamic amplification is less than $10 \%$ about the static equilibrium value. Assume $M=5 \mathrm{~kg}$ and $k=30,000 \mathrm{~N} / \mathrm{m} .$

Chapter 3: Harmonically Excited Vibration
Aniket Bajaj
03:37
Mechanical Vibrations in SI Units

A vibration pickup has a natural frequency of $5 \mathrm{~Hz}$ and a damping ratio of $\zeta=0.5 .$ Find the lowest frequency that can be measured with a $1 \%$ error.

Chapter 10: Vibration Measurement and Applications
Aniket Bajaj
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aniket's Quick Ask Videos

02:43
Physics 101 Mechanics

A simple pendulum of mass m2 and length l is constrained to move
in a single plane. The point of support is attached to a mass m1
which
can move on a horizontal line in the same plane. Find the
lagrangian of the system in terms of suitable generalized
coordinates. Derive the
equations of motion. Find the frequency of small oscillations of
the pendulum.

Aniket Bajaj
01:47
Physics 101 Mechanics

What is the wavelength of ultrasound in a medium if the velocity
is 1540 m/s and the frequency is 5 MHz?
What is the wavelength of ultrasound in a medium if the velocity
is 4080 m/s and the frequency is 5 MHz?
What is the velocity of ultrasound in a medium if the wavelength
is 0.04 cm and the frequency is 4 MHz?



What is the period of a wave whose frequency is 6 MHZ?
Calculate the frequency of an ultrasound wave that has a
wavelength of 0.45 mm in soft tissue?

Aniket Bajaj
01:54
Physics 101 Mechanics

For the circuit diagram shown below, complete the given C-Q-V-E table. The potential difference applied across terminals A and B is 10.0 Volts.

Aniket Bajaj
02:32
Physics 101 Mechanics

A coffee maker can be modeled as a heating element (resistance
R) connected to the outlet voltage of 120.0 V (assumed to be dc).
The heating element boils small amounts of water at a time as it
brews the coffee. When bubbles of water vapor form, they carry
liquid water up through the tubing. Because of this, the coffee
maker boils 1.60% of the water that passes through it; the rest is
heated to 100°C but remains liquid. Starting with water at 10.0°C,
the coffee maker can brew 1.00 L of coffee in 7.70 min. Find the
resistance R. The latent heat of vaporization of water is 2,256,000
J/kg and the specific heat of water is 4186 J/ (kg·K).

Aniket Bajaj
02:27
Physics 101 Mechanics

Two observers are moving relative to each other with a constant
velocity. The two observers are watching a pendulum swing back and
forth. Which of these will be measured the same by both observers
according to classical relativity?

Only the time for the pendulum to go back and forth once.
Only the speed of the pendulum.
Only the frequency of the pendulum.
The speed, frequency, and time for the pendulum to go back and
forth once.
The frequency, and time for the pendulum to go back and forth
once

Aniket Bajaj
01:58
Physics 101 Mechanics

Q: Explain how Ohm’s law relates to our Core Concept of
flow-down gradients.

Aniket Bajaj
1 2 3 4 5 ... 57