Dynamics
Dynamics is the study of the forces which are responsible for the motion experienced by an object due to external forces acting on it.
In Physics and Engineering, there is Aerodynamics, Analytical dynamics, Anomalous dynamics, Astrodynamics,Brownian dynamics, File dynamics,Flight dynamics, Fluid dynamics or hydrodynamics, Computational fluid dynamics, Fractional dynamics, Molecular dynamics, Normal dynamics, Langevin dynamics, Quantum chromodynamics, Quantum electrodynamics, Relativistic dynamics, Single file dynamics, Stellar dynamics, System dynamics, and Thermodynamics.
vCalc's Dynamics folder contains the equations used in the study of the different dynamics.
Parent Categories
Dynamics Calculators and Collections
Dynamics Equations
- Acceleration - Non-uniform Circular Motion MichaelBartmess Use Equation
- Acceleration from Force and Mass KurtHeckman Use Equation
- Acceleration with Fluid Resistance MichaelBartmess Use Equation
- Aerodynamic Torque on a Football MichaelBartmess Use Equation
- Air Speed from Pressures Anastase Use Equation
- Angle of Banking WilliamC Use Equation
- Angular Acceleration (M,I) MichaelBartmess Use Equation
- Angular Displacement at t MichaelBartmess Use Equation
- Angular Frequency (torsion constant) MichaelBartmess Use Equation
- Angular Frequency from Period MichaelBartmess Use Equation
- Angular Frequency of Physical Pendulum MichaelBartmess Use Equation
- Angular Velocity at t MichaelBartmess Use Equation
- Angular Velocity Magnitude MichaelBartmess Use Equation
- Apparent Weight at the Equator MichaelBartmess Use Equation
- Average Circular Velocity KurtHeckman Use Equation
- Average Power KurtHeckman Use Equation
- Ballistic Angle of Velocity MichaelBartmess Use Equation
- Ballistic Base Elevation KurtHeckman Use Equation
- Ballistic Coefficient MichaelBartmess Use Equation
- Ballistic Flight Horizontal Velocity MichaelBartmess Use Equation
- Ballistic Flight Vertical Velocity MichaelBartmess Use Equation
- Ballistic Horizontal Position KurtHeckman Use Equation
- Ballistic Initial Vertical Velocity Component MichaelBartmess Use Equation
- Ballistic Max Height KurtHeckman Use Equation
- Ballistic Position (X,Y) KurtHeckman Use Equation
- Ballistic Projectile Displacement - x(`v_0`,t,`theta`) AndrewBudd Use Equation
- Ballistic Projectile Displacement - y(t,`theta`, `v_0`) AndrewBudd Use Equation
- Ballistic Projectile Displacement - y(x, `theta`, `v_0`) MichaelBartmess Use Equation
- Ballistic Range KurtHeckman Use Equation
- Ballistic Range (Earth gravity) MichaelBartmess Use Equation
- Ballistic Range - Delta Height KurtHeckman Use Equation
- Ballistic Travel Time KurtHeckman Use Equation
- Ballistic Velocity to Achieve Height KurtHeckman Use Equation
- Ballistic Y Position KurtHeckman Use Equation
- Bernoulli Equation (Elevation) DavidC Use Equation
- Bernoulli equation (Head Loss) DavidC Use Equation
- Bernoulli Equation (pressure) DavidC Use Equation
- Bernoulli equation (static head) DavidC Use Equation
- Broom Handle Force vCollections Use Equation
- Bullet Ballistic Coefficient KurtHeckman Use Equation
- Bullet Ballistic Coefficient (Mass-Diameter-Form_factor) KurtHeckman Use Equation
- Cannon Range KurtHeckman Use Equation
- Centrifugal Force KurtHeckman Use Equation
- Centripetal Acceleration KurtHeckman Use Equation
- Centripetal Force KurtHeckman Use Equation
- Centripetal Force - with angular rate MichaelBartmess Use Equation
- Circular Velocity KurtHeckman Use Equation
- Constant Acceleration KurtHeckman Use Equation
- Continuity Equation (Area) Billy Use Equation
- Cylinder (solid) - Centroid `x_c` MichaelBartmess Use Equation
- Cylinder (solid) - Radius of Gyration about x-axis MichaelBartmess Use Equation
- Cylinder (solid) - Radius of Gyration about xc-axis MichaelBartmess Use Equation
- Cylinder (solid) - Radius of Gyration about y-axis MichaelBartmess Use Equation
- Cylinder - Mass Moment of Inertia About y-axis MichaelBartmess Use Equation
- Cylinder - Mass Moment of Inertia About z-axis MichaelBartmess Use Equation
- Cylinder - Mass Moment of Inertia About `z_c`-axis MichaelBartmess Use Equation
- Cylinder Density KurtHeckman Use Equation
- Cylinder Mass MichaelBartmess Use Equation
- Distance Traveled MichaelBartmess Use Equation
- Drag Force Anastase Use Equation
- Elijah velocity Eli Use Equation
- Energia Cinetica StMaryStudent Use Equation
- Energy (Rest) MichaelBartmess Use Equation
- Energy = f(Power,Time) KurtHeckman Use Equation
- Energy of Light KurtHeckman Use Equation
- Fk = muk FN vCollections Use Equation
- Floor Handle x vCollections Use Equation
- Floor Handle y vCollections Use Equation
- Fluid Resistance at High Speed MichaelBartmess Use Equation
- Fluid Resistance at Low Speed MichaelBartmess Use Equation
- Force KurtHeckman Use Equation
- Force from Mass and Change in Velocity over Time KurtHeckman Use Equation
- Force Magnitude (from components) MichaelBartmess Use Equation
- Force of Drag KurtHeckman Use Equation
- Force Unit Conversion KurtHeckman Use Equation
- Force/Mass/Acceleration MichaelBartmess Use Equation
- Gravity Acceleration by Altitude KurtHeckman Use Equation
- Harmonic Oscillator - Acceleration [k,x,m] MichaelBartmess Use Equation
- Harmonic Oscillator - Acceleration [`omega`,x] MichaelBartmess Use Equation
- Harmonic Oscillator - Amplitude MichaelBartmess Use Equation
- Hooke's Law MichaelBartmess Use Equation
- Impulse Juliet Use Equation
- Impulse (`Delta vecv`) KurtHeckman Use Equation
- Impulse (`Delta` speed) MichaelBartmess Use Equation
- Initial Velocity KurtHeckman Use Equation
- International Gravity Formula KurtHeckman Use Equation
- Kinetic Energy KurtHeckman Use Equation
- Kinetic Energy (Relativistic) MichaelBartmess Use Equation
- Kinetic Energy (Relativistic) fixing units problem MichaelBartmess Use Equation
- Kinetic Energy for a Particle EdwardOmbui Use Equation
- Kinetic Energy from Change in Velocity DavidC Use Equation
- Kinetic Energy of a Rigid Body MichaelBartmess Use Equation
- Kinetic Energy of a Rigid Body with Velocity in the xy Plane MichaelBartmess Use Equation
- Kinetic Energy of Motion About an Instant Center MichaelBartmess Use Equation
- Kinetic Energy_for a Rigid body EdwardOmbui Use Equation
- Kinetic Energy_For motion about an instant center EdwardOmbui Use Equation
- Kinetic Energy_For motion in the xy plane EdwardOmbui Use Equation
- Kinetic Engergy [`rho`] KurtHeckman Use Equation
- Magnitude of Acceleration MichaelBartmess Use Equation
- Magnitude of Velocity Merlin Use Equation
- Mass from Energy MichaelBartmess Use Equation
- Mass from Equal Force MichaelBartmess Use Equation
- Mass from Force and Acceleration KurtHeckman Use Equation
- Mass of the Earth As Told By A Pig MichaelBartmess Use Equation
- Mass-Energy Equivalence KurtHeckman Use Equation
- Max Range and Height and Flight Time KurtHeckman Use Equation
- Max Turning Velocity on a Banked Curve MichaelBartmess Use Equation
- Max Turning Velocity on a Flat Curve MichaelBartmess Use Equation
- Mean Velocity KurtHeckman Use Equation
- MoI - cylinder about x-axis MichaelBartmess Use Equation
- Moment of Inertia - Ellipsoid (axis_3) MichaelBartmess Use Equation
- Momentum KurtHeckman Use Equation
- Momentum - Relativistic MichaelBartmess Use Equation
- Net Force in Uniform Circular Motion MichaelBartmess Use Equation
- Peak Dynamic Pressure cataustria Use Equation
- Pendulum Angular Frequency MichaelBartmess Use Equation
- Pendulum Frequency MichaelBartmess Use Equation
- Pendulum Length KurtHeckman Use Equation
- Pendulum Period MichaelBartmess Use Equation
- Period of Pendulum Billy Use Equation
- Potential Energy of a Spring KurtHeckman Use Equation
- Potential Energy of Gravity KurtHeckman Use Equation
- Power KurtHeckman Use Equation
- Power f(mass, acceleration, distance, time) KurtHeckman Use Equation
- Power for Vertical Lift KurtHeckman Use Equation
- Power [Force,Velocity] vCollections Use Equation
- Push a Broom (ax) vCollections Use Equation
- Pushing a Broom (a) vCollections Use Equation
- Quantum Energy HunterMetcalfe Use Equation
- Radial Acceleration (R,T) MichaelBartmess Use Equation
- Relativistic Mass-Energy Equation vCollections Use Equation
- Resistive Force of a Fluid KurtHeckman Use Equation
- Sectional Density MichaelBartmess Use Equation
- Solar System G forces KurtHeckman Use Equation
- Speed of Circular Motion MichaelBartmess Use Equation
- Static deflection of the system EdwardOmbui Use Equation
- Stoke's Law (drag force) KurtHeckman Use Equation
- Tangential Acceleration about Center of Mass MichaelBartmess Use Equation
- Terminal Velocity MichaelBartmess Use Equation
- Time = f(Energy,Power) KurtHeckman Use Equation
- Time of Motion vCollections Use Equation
- Time to Achieve Velocity by a Constant Force KurtHeckman Use Equation
- Torque MichaelBartmess Use Equation
- Total Moment of a Rigid Body MichaelBartmess Use Equation
- Undamped Natural Circular Frequency MichaelBartmess Use Equation
- Upward Acceleration from Thrust or Lift KurtHeckman Use Equation
- Velocity (constant acceleration) MichaelBartmess Use Equation
- Velocity (due to g) MichaelBartmess Use Equation
- Velocity (terminal) KurtHeckman Use Equation
- Velocity - constant acceleration KurtHeckman Use Equation
- Velocity - Time - Distance MichaelBartmess Use Equation
- Velocity from Kinetic Energy and Mass KurtHeckman Use Equation
- Velocity in Orbit MichaelBartmess Use Equation
- velocity of impact (counter weighted) KurtHeckman Use Equation
- Velocity Unit Conversion KurtHeckman Use Equation
- Velocity with Drag MichaelBartmess Use Equation
- Velocity |v| = f(r,T) KurtHeckman Use Equation
- Vertical Velocity MichaelBartmess Use Equation
- Volumetric Flow through a Tube MichaelBartmess Use Equation
- Wave Frequency KurtHeckman Use Equation
- Weight KurtHeckman Use Equation
- Weight Equation Kimemia Use Equation
- Work vCollections Use Equation
- Work at Angle KurtHeckman Use Equation
- Work Done on Spring MichaelBartmess Use Equation
- Work to Stretch a Spring KurtHeckman Use Equation
- `a_x = F_x / m` vCollections Use Equation
- `a_y = F_y/m` vCollections Use Equation
- `a_z = F_z/m` vCollections Use Equation
- `F_W = mg` KurtHeckman Use Equation
- `R = ((2v^2)/g) sin(theta) cos(theta)` KurtHeckman Use Equation
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