Vidhi Bhatt

Gujarat University
Assistant Proffesor

Biography

I was working with the Parul University-Gujarat, since last seven years with subject Physics. Have taught various Physics syllabuses in different branches and different courses in theoretical as well as practical manner.

Education

BS Physics
Gujarat University
MS Physics-Electronics
Sardar Patel University
BS Science
Hemchandrachary North Gujarat University
Phd Nano Technology
Dharmsinh Desai University

Educator Statistics

Numerade tutor for 6 years
332 Students Helped

Topics Covered

Unlock the Power of Kinetic Energy: Boost Your Efficiency Today
Unlocking the Power of Potential Energy: Discover the Benefits
Save Energy and Money with Effective Conservation Techniques
Understanding Temperature and Heat: A Comprehensive Guide
Unlocking the Secrets of Thermal Properties: Understanding Matter
Understanding the First Law of Thermodynamics: Key Concepts
Understanding the Second Law of Thermodynamics: Key Principles
Exploring the Fascinating World of Mechanical Waves
Understanding Electromagnetic Waves: A Comprehensive Guide
Understanding Reflection and Refraction of Light: A Comprehensive Guide
Discover the Fascinating World of Particle Physics Today
Calculating Electrical Power: Resistance and EMF
Master Direct Current Circuits with Our Expert Guide
Electromagnetic Induction: Understanding the Science and Applications
Understanding Alternating Current: A Comprehensive Guide
Mastering the Rotation of Rigid Bodies: Tips & Techniques
Mastering Motion: Achieving Efficiency Along a Straight Line
Understanding Equilibrium and Elasticity: A Comprehensive Guide
Understanding Moment Impulse and Collisions for Better Physics
Unlock the Secrets of Fluid Mechanics with Our Expert Guide
Discovering the Sources of Magnetic Fields: A Comprehensive Guide
Discover the Power of Gravitation: Exploring the Science Behind It
Motion in 2d or 3d
Explore the Fascinating World of Periodic Motion - Learn More Today!
Understanding Electric Charge and Field: A Comprehensive Guide
Unlocking the Power of Electric Potential: Exploring its Benefits
Capacitance and Dielectrics: Understanding the Basics
Explore the Fascinating World of Wave Optics - Unleash Its Potential

Vidhi's Textbook Answer Videos

05:01
University Physics with Modern Physics

A 25,000-kg subway train initially traveling at 15.5 m/s slows to a stop in a station and then stays there long enough for its brakes to cool. The station's dimensions are 65.0 m long by 20.0 m wide by 12.0 m high. Assuming all the work done by the brakes in stopping the train is transferred as heat uniformly to all the air in the station, by how much does the air temperature in the station rise? Take the density of the air to be 1.20 kg/m$^3$ and its specific heat to be 1020 J /kg $\cdot$ K.

Chapter 17: Temperature and Heat
Section 5: Quantity of Heat
Vidhi Bhatt
09:05
University Physics with Modern Physics

A parallel-plate air capacitor is made by using two plates 12 cm square, spaced 3.7 mm apart. It is connected to a 12-V battery. (a) What is the capacitance? (b) What is the charge on each plate? (c) What is the electric field between the plates? (d) What is the energy stored in the capacitor? (e) If the battery is disconnected and then the plates are pulled apart to a separation of 7.4 mm, what are the answers to parts (a)-(d)?

Chapter 24: Capacitance and Dielectrics
Vidhi Bhatt
16:24
University Physics with Modern Physics

A $+$2.00-nC point charge is at the origin, and a second $-$5.00-nC point charge is on the $x$-axis at $x = $0.800 m. (a) Find the electric field (magnitude and direction) at each of the following points on the x-axis: (i) $x =$ 0.200 m; (ii) $x =$ 1.20 m; (iii) $x = -$0.200 m. (b) Find the net electric force that the two charges would exert on an electron placed at each point in part (a).

Chapter 21: Electric Charge and Electric Field
Section 5: Electric-Field Calculations
Vidhi Bhatt
07:04
University Physics with Modern Physics

Suppose that the egg has a diameter of 200 $\mu$m. What fractional change in the internal Na$^+$ concentration results from the fertilization-induced change in V$_m$? Assume that Na$^+$ ions
are distributed throughout the cell volume. The concentration increases by (a) 1 part in 10$^4$; (b) 1 part in 10$^5$; (c) 1 part in 10$^6$; (d) 1 part in 10$^7$.

Chapter 24: Capacitance and Dielectrics
Vidhi Bhatt
04:51
University Physics with Modern Physics

What is the minimum amount of work that must be done by the cell to restore V$_m$ to -70 mV? (a) 3 mJ; (b) 3 $\mu$J; (c) 3 nJ; (d) 3 pJ.

Chapter 24: Capacitance and Dielectrics
Vidhi Bhatt
15:35
University Physics with Modern Physics

You are designing capacitors for various applications. For one application, you want the maximum possible stored energy. For another, you want the maximum stored charge. For a third application, you want the capacitor to withstand a large applied voltage without dielectric breakdown. You start with an air-filled parallel-plate capacitor that has $C_0 = 6.00\space pF$ and a plate separation of 2.50 mm. You then consider the use of each of the dielectric materials listed in Table 24.2. In each application, the dielectric will fill the volume between the plates, and the electric field between the plates will be 50% of the dielectric strength given in the table. (a) For each of the five materials given in the table, calculate the energy stored in the capacitor. Which dielectric allows the maximum stored energy? (b) For each material, what is the charge $Q$ stored on each plate of the capacitor? (c) For each material, what is the voltage applied across the capacitor? (d) Is one dielectric material in the table your best choice for all three applications?

Chapter 24: Capacitance and Dielectrics
Vidhi Bhatt
1 2 3 4 5 ... 54

Vidhi's Quick Ask Videos

02:35
Physics 101 Mechanics

The velocipede was an early form of bicycle with a curiously large front wheel---much larger than those on modern bicycles. The large wheel made it difficult and relatively unsafe to ride. Why then do you think such large wheels were used?

Vidhi Bhatt
08:47
Physics 101 Mechanics

A) the maximum height the ball reaches in its trajectory.
B) The velocity of the ball right before it hits the sea. Remember velocity is a vector quantity!
C) Sketch a position diagram with y(in m) on y-a sis and x (in m) on the x-axis. First sketch the basics trajectory of a projectile launched at angle heta, neglecting air resistance. You do not need to provide number on the axes!
D) Sketch in the same diagram the trajectory of a projectile if air resistance was not neglected, showing the difference between the two situations. Accuracy is not necessary just the general profile of motion in both cases.

Vidhi Bhatt
1