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The formula of the day is tweeted out automatically. The maths rendering code has some errors in it, so sometimes the images aren't drawn properly. Those tweets are deleted later manually.
Today's formula of the day: The Total Relativistic Energy of an Object The total energy of a moving object is equal to the Lorentz Factor, multiplied by the rest mass of t... #SpecialRelativity #Physics physicsformulae.com/#/formula-of-t…
Today's formula of the day: The Torque on an Electric Dipole The torque exerted on an electric dipole in the presence of an electric field is the vector product ... #ClassicalElectromagnetism #Physics physicsformulae.com/#/formula-of-t…
Today's formula of the day: The Time Dilation Formula in Special Relativity For two events that occur at the same point in space in an inertial frame $S$, and which are separat... #SpecialRelativity #Physics physicsformulae.com/#/formula-of-t…
Today's formula of the day: The Third Law of Thermodynamics The entropy of a perfect crystal of any pure substance approaches zero as the temperature approaches... #Thermodynamics #Physics physicsformulae.com/#/formula-of-t…
Today's formula of the day: The Kinematic Equation for Final Velocity as a Function of Distance for Constant Acceleration For an object under constant acceleration, the square of the object's final velocity is equal to the... #ClassicalMechanics #Physics physicsformulae.com/#/formula-of-t…
Today's formula of the day: The Kinematic Equation for Final Velocity as a Function of Time for Constant Acceleration For an object under constant acceleration, the final velocity of that object is equal to the initial... #ClassicalMechanics #Physics physicsformulae.com/#/formula-of-t…
Today's formula of the day: The Kinematic Equation for Distance as a Function of Time for Constant Acceleration For an object under constant acceleration, the distance travelled by that object as a function of ti... #ClassicalMechanics #Physics physicsformulae.com/#/formula-of-t…
Today's formula of the day: The Stefan-Boltzmann Law The total power emitted by an ideal blackbody is proportional to the fourth power of the temperature... #Thermodynamics #Physics physicsformulae.com/#/formula-of-t…
Today's formula of the day: The Formula for the Speed of Electromagnetic Waves in Matter When an electromagnetic wave passes through a dielectric, the speed of the wave is less than the spe... #ClassicalElectromagnetism #Physics physicsformulae.com/#/formula-of-t…
Today's formula of the day: The Second Law of Thermodynamics Natural processes lead towards the homogeneity of matter and energy. No real process is truly revers... #Thermodynamics #Physics physicsformulae.com/#/formula-of-t…
Today's formula of the day: The Schwarzschild Radius Formula The radius of the event horizon of a black hole is directly proportional to the mass of the black ho... #SpacePhysics #Physics physicsformulae.com/#/formula-of-t…
Today's formula of the day: The Scalar Wave Equation in One Dimension The second derivative of a wave function with respect to time is equal to the second derivative of t... #Waves #Physics physicsformulae.com/#/formula-of-t…
Today's formula of the day: The Rydberg Formula The Rydberg Formula approximates the wavelengths of the emission lines in the spectrum of light emit... #QuantumMechanics #Physics physicsformulae.com/#/formula-of-t…
Today's formula of the day: The Rest Mass Energy of an Object The rest mass energy of an object is directly proportional to the rest mass of the object.... #SpecialRelativity #Physics physicsformulae.com/#/formula-of-t…
Today's formula of the day: The Formula for the Total Resistance of Electrical Components Connected in Series For electrical components that are connected in series, the total resistance of all of the component... #Electromagnetism #Physics physicsformulae.com/#/formula-of-t…
Today's formula of the day: The Relativistic Mass Formula The mass of an object that is moving at a constant speed $u$ relative to an observer is that object'... #SpecialRelativity #Physics physicsformulae.com/#/formula-of-t…
Today's formula of the day: The Relativistic Energy-Momentum Relation The total relativistic energy of an object can be expressed in terms of its relativistic momentum an... #SpecialRelativity #Physics physicsformulae.com/#/formula-of-t…
Today's formula of the day: The Relativistic Doppler Effect When an electromagnetic wave source is moving towards an observer, the observed frequency is greater... #SpecialRelativity #Physics physicsformulae.com/#/formula-of-t…
Today's formula of the day: The Radioactive Decay Formula The activity of a radioactive sample decreases exponentially with time.... #NuclearPhysics #Physics physicsformulae.com/#/formula-of-t…
Today's formula of the day: Radial Acceleration in Uniform Circular Motion For an object moving in perfectly circular motion, the instantaneous acceleration of that object at ... #ClassicalMechanics #Physics physicsformulae.com/#/formula-of-t…
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