Concepts Of Work And Energy In Physics
Published 5/2023
MP4 | Video: h264, 1280x720 | Audio: AAC, 44.1 KHz
Language: English | Size: 1.00 GB | Duration: 1h 49m
Work Energy and Power, Different types of energies, potential ehnergy, Kinetic energy, work energy theorem, Power
Free Download What you'll learn
Understand the concept of work in Physics
Kinetic energy and solve problems based on kinetic energy
Work kinetic energy theorem
Gravitational Potential energy
Elastic potential energy
Mechanical energy conservation
Power
Requirements
Knowledge of basic algebra
Basic Knowledge of Calculus
Understanding of English
Description
Those under 18 may use the services only if a parent or guardian opens their account, handles any enrollments, and manages their account usage. Course on Work Energy and Power is for learners and students preparing for Advance Placement Physics examination and other college level examination . Also students perparing for various engineering and medical entrance examination can also take up couse. Any underage student or learner must take up the course under his/her parent guidance.Conservation laws play an important role in physics. Such laws assert that somequantity is conserved, which means that the quantity remains constant even whenparticles or bodies suffer drastic changes involving motions, collisions, and reactions.One familiar example of a conservation law is the conservation of mass. Expressed inits simplest form, this law asserts that the mass of a given particle remains constant,regardless of how the particle moves and interacts with other particles or other bodies.In the preceding two chapters we took this conservation law for granted, and we treatedthe particle mass appearing in Newton's Second Law (ma = F) as a constant, time independent quantity. More generally, the sum of all the masses of the particles orbodies in a system remains constant, even when the bodies suffer transformations andreactions. This conservation law is one of the most fundamental laws of nature. Although we will derive this law fromNewton's laws, it is actually much more general than Newton's laws, and it remainsvalid even when we step outside of the realm of Newtonian physics and enter the realmof relativistic physics or atomic physics, where Newton's laws fail. No violation of thelaw of conservation of energy has ever been discovered.In mechanics, we can use the conservation law for energy to deduce some features of themotion of a particle or of a system of particles when it is undesirable or too difficult to calculate the full details of the motion from Newton's Second Law. This is especiallyhelpful in those cases where the forces are not known exactly.But before we can deal with energy and its conservation, we must introduce the concept of work. Energy and work are closely related. We will see that the work done bythe net force on a body is equal to the change of the kinetic energy
Overview
Section 1: Introduction
Lecture 1 Introduction
Lecture 2 Defintion of work
Lecture 3 Work done by force of gravity and tension with illustrative example
Lecture 4 Types of work
Lecture 5 Calculating work from dot product
Lecture 6 Practice problem 1 on calculation of work
Lecture 7 Illustrative examples on calculation of work
Lecture 8 Work done by variable force
Lecture 9 Calculating work done by variable force
Lecture 10 Calculating work done graphically and analytically
Section 2: KINETIC ENERGY
Lecture 11 Work kinetic energy theorem
Lecture 12 Work kinetic energy theorem 2
Section 3: Potential energy and energy conservation
Lecture 13 Problems based on Potential energy and mechanical energy conservation
Lecture 14 More problem based on gravitational and elastic potential energy
Section 4: Power
Lecture 15 Power
Lecture 16 Elevator and cage problem
Students preparing for Physics exam of Advance placement
Homepage
https://www.udemy.com/course/work-and-energy/
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