# Physical Pendulum Equations Calculator

## Science Physics Oscillations Design Formulas

Solving for acceleration of gravity.

#### Inputs:

 inertia moment or mass center (I) kilogram-meter^2
 mass (M) kilogramatomic mass unitattogramcarat metriccentigramdecigramdekagramdramexagramfemtogramgigagramgraingramhundredweight long ukhundredweight short USmegagrammicrogrammilligramnanogramouncepetagrampicogramplanck masspennyweightpoundslugsolar mass sunstoneteragramton longton metricton shorttonnetroy ounceyoctogramyottagramzeptogramzettagram
 distance - moment of inertia to pivot (D) meterangstromattometercentimeterchaindekameterdecimeterexameterfemtometerfootgigameterhectometerinchkilometerlight yearlinkmegametermicrometermicronmilemillimeternanometerparsecpetameterpicometerrodterameteryard

#### Conversions:

 inertia moment or mass center (I)= 0 = 0kilogram-meter^2
 mass (M)= 0 = 0kilogram
 distance - moment of inertia to pivot (D)= 0 = 0meter
 period (T)= 0 = 0second

#### Solution:

 acceleration of gravity (g)= NOT CALCULATED

#### Other Units:

Change Equation
Select to solve for a different unknown
simple pendulum
 Solve for period. Solve for length. Solve for acceleration of gravity
physical pendulum
 Solve for period. Solve for center of mass or moment of inertia. Solve for mass Solve for acceleration of gravity Solve for distance from center of mass to pivot

References - Books: Tipler, Paul A.. 1995. Physics For Scientists and Engineers. Worth Publishers. 3rd ed.

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