Classical Physics Forum

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Join expert classical physics discussion on the principles developed before the rise of relativity and quantum mechanics. Including mechanics, electrodynamics, thermodynamics, optics.

Mechanics

B Shortest distance between two points

Optics

A Interference of ultra short pulse

Thermodynamics

I Efficiency of cycles bounded by two isotherms

Electromagnetism

I Video: 'How electricity actually works'
B Did Netwton actually think "gravity " was "absurd"?
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B Why doesn't the ink in a pen refill flow back if I hold it inverted?
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I How Does the Oberth Effect Relate to Energy Conservation in Space Propulsion?
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A How to find the volume change of CO2 when compressed into liquid?
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A Were there any valid classical unified field theories ?
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I Can windows frost over in space?
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I Focused proton beam waist diameter
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I KT in systems other than ideal gas
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I Are all conservative forces internal?
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I D'Alembert's solution to the wave equation
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I Hubble's Law: Distance, Speed, & Upper Limit
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I Phase space density function and Probability density function
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I Obtaining F = ma: The Evolution of Mass and Acceleration Measurements
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I Understanding Waves: The Importance of Fourier Analysis in Undergraduate Physics
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B Can He be used as a safer alternative to H in blimps?
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I Optimal Copper Pipe Size for Misting System
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A Understanding Continuity Equation & Conservation Laws
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B What ways are there for something to lose mass?
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B Why doesn't the gravity vector contribute to KE sliding down a ramp?
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I Would an unstable emulsion separate in the abscense of gravity? How?
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I Why do we use the sin x = x approximation for calculating waves on a rope?
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I Missing exponent in "Theoretical Minimum"?
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I I'm confused about the effect of gravity anomalies on sea height
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B Can color be used for measuring density?
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I Why do two balls launch from the right in a Newton's cradle instead of just one?
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I X variable in damping force equation for damped oscillation?
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I Beam-splitter transformation matrix
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B Expression where a certain quantity is proportional to the force squared
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I High resolution visible spectrum
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I Tone vs hole size & spacing in a short tube
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I Derivative operators in Galilean transformations
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A Which liquids do not supercool?
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I RC charging - intuition behind equal dissipated energies?
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A The relation between imaginary part of permittivity to conductivity
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A Is there a passive molecular flow 'diode'?
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I Is this allowed? - Harmonic oscillation
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I How can a blackbody get hotter?
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B Understanding the Stefan-Boltzmann Law (when the surroundings are hotter)
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I How can I solve catenary problems?
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I Lorenz gauge, derivative of field tensor
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I Can Axioms Revolutionize Our Understanding of Physics?
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B Attitude Control Gyroscopes on Spaceships
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I How is Peter Debye's name pronounced?
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B What Size Would the Universe Be if Compressed to Neutron Star Density?
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I Understanding LaPlace's Law: Tension in Pressure Vessels Explained
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B Optimizing Weight Distribution for Dog Agility See-Saw Compliance
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B Can we use temperature differences for power generation?
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UK A level Physics question & Marking scheme question
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A Why do conductivities and resistivities change with magnetic field strength?
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I CExploring the Coastline Paradox: Are Dimensions Relative to the Observer?
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I Determining continuity using Gauss' law
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I Adiabatic irreversible process vs adiabatic reversible
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I Physical meaning of the equation E = - del V
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B Wi-Fi Waves: Why Short Range & Microwaves for Long Distances?
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B Is the Motion of a Pendulum Described by a Harmonic Oscillator Model?
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I What Determines the Maximum Number of Microstates at Equilibrium?
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I How do you exactly calculate the theoretical maximum efficiency of an LED?
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B Beamsplitter in a Michelson interferometer
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A Point source with Dirichlet Boundary
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Use of tensor densities in coordinate transformation
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I Boltzmann Distribution and microstate probabilities
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B Double Slit Experiment with a Medium in front of the slits
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A Independent variables in higher derivative Lagrangian
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I Showing that B has no discontinuities at the surface
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I Human eye and its focal length range....
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I Things that can be observed in a snapshot view of the universe
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How Do You Calculate the Temperature Rise of a Bimetallic Strip in an MCB?
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Max Bending Moment of Rigidly Clamped Beam
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Calculating Flow of Helium in a Verticle Pipe
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Isobaric Process finding G using (deltaG-deltaGo)
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Adiabatic Invariant: Modifying Entropy Derivation by Laura
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Transform Tables: A Comprehensive Listing
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Inviscid flow around cylinder in presence of wall
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A Solving the Three Body Problem for Proton Decay Trajectory
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I Simple explanation of three body problem
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Gibbs Free energy vs Gibbs Free energy at standard state
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Combining Advective Transport Equations for Two Solutes: Help Needed!
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Derivation of Clausius Inequality
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Clausius clapeyrion equation Hfg
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Is any constant vector field conservative?
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Clarification on Definition of Green Strain
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Calculating G from landing Aircraft
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Is Steady State Achieved in Actual Bearing Operation?
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Factor a in Van der Waals equation of state off by a factor of 0.1?
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Joukowsky Equation: Applies to Gases Too?
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Designing a Couette Cell - Get the Right Shear Gradient
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Raoult's Law and volume changes
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PBS Einstein show is a history of energy
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Calculating volume of an air tank given the compressor delivery rate
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Understanding Counts in Spectrometer
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Universal and Individual Gas Constant
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Definition of the Lagrangian finite strain tensor
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Can Changing Hole Diameters Result in Equal Volume Flow Rate in a Pipe?
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The stiffness matrix in matrix analysis of strutures
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How Accurate Are Calculated Diffusion Coefficients of H2 and He into Air?
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I Why do we ignore the contribution to a surface integral from the point r=0?
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Intensities from the Michelson Beamsplitter
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Axial loading and the change of wall thickness in a cylinder
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Convection over horizontal pipe in air
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How Does Dew Point Change in a Gas Mixture of Different Proportions?
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Classical Physics

Welcome to the Classical Physics forum!

Classical physics refers to the traditional theories and principles of physics developed before the advent of quantum mechanics and relativity in the early 20th century. It includes classical mechanics, electromagnetism, and thermodynamics.

Classical mechanics, formulated by Newton, describes the motion of objects and the forces acting upon them. Maxwell's equations encompass classical electromagnetism, elucidating the behavior of electric and magnetic fields. Thermodynamics, developed by Carnot and others, focuses on the principles governing heat, work, and energy transfer in macroscopic systems.

While highly successful in explaining everyday phenomena, classical physics encountered limitations at extreme scales, leading to the development of quantum mechanics and relativity to describe the behavior of particles at the atomic and cosmic levels, respectively.

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