The Absolute Pressure calculator computes the absolute pressure in a liquid gauge based on the density (ρ) of the fluid, height of fluid (h) in the column, atmospheric pressure (p_atm) and acceleration due to gravity (g).

The Absolute Pressure calculator computes the absolute pressure in a liquid gauge based on the density (ρ) of the fluid, height of fluid (h) in the column, atmospheric pressure (p_atm) and acceleration due to gravity (g).

The Barometer Approximation of Absolute Pressure calculator computes the absolute pressure based on the density (ρ), height (h) and the acceleration due to gravity (g).

The Barometer Approximation of Absolute Pressure (Any Gravity) calculator computes the absolute pressure based on the density (ρ), height (h) and the acceleration due to gravity (g).

The Acceleration (Velocity, Time) calculator computes the average acceleration of an object given the change in time and the change in velocity INSTRUCTIONS: Choose units and enter the following: (Δv) Change in velocity. 

The Acceleration Center of Mass equation calculates the acceleration at the center of mass of an object.

The Acceleration in SHM equation calculates the acceleration of a wave in simple harmonic motion.

The Acceleration in Simple Harmonic Motion calculator computes the acceleration in a spring based on the mass, length of compression and the spring constant.

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The Acceleration of a Wave  calculator computes the acceleration of a wave (y) based on the amplitude (A), angular frequency (ω), location (x), wave number (k) and time (t).