Notes in Essential-Equations

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Status	Last Update	Fields
Published	03/29/2024	Give the equation for final velocity as a function of time, initial velocity, and acceleration:{{c1::}}
Published	03/29/2024	Give the equation for final velocity as a function of displacement, initial velocity, and acceleration:{{c1::}}
Published	03/29/2024	Give the equation for displacement as a function of time, initial velocity, and acceleration:{{c1::}}
Published	03/29/2024	Give the equation for centripetal acceleration:{{c1::}}
Published	03/29/2024	Give the equation for centripetal force:{{c1::}}
Published	03/29/2024	Give the equation for initial velocity in the X direction in a projectile motion problem:{{c1::}}
Published	03/29/2024	Give the equation for initial velocity in the Y direction in a projectile motion problem:{{c1::}}
Published	03/29/2024	Give the equation for force as a function of mass and acceleration:{{c1::}}
Published	03/29/2024	Give the equation for Newton's 3rd law of motion:{{c1::}}
Published	03/29/2024	Give the equation for the force of friction:{{c1::}}
Published	03/29/2024	Give the equation for the force of gravity between two masses:{{c1::}}
Published	03/29/2024	Give the equation for the force of gravity (weight) as a function of mass and gravitational acceleration:{{c1::}}
Published	03/29/2024	Give the equation for torque:{{c1::}}
Published	03/29/2024	Give the equation for work:{{c1::}}
Published	03/29/2024	Give the equation for power:{{c1::}}
Published	03/29/2024	Give the equation for kinetic energy:{{c1::}}
Published	03/29/2024	Give the equation for elastic potential energy:{{c1::}}
Published	03/29/2024	Give the equation for the potential energy of an object at a certain height:{{c1::}}
Published	03/29/2024	Give the equation for the potential gravitational energy between two masses:{{c1::}}
Published	03/29/2024	For an object on an inclined plane, give the equation for the gravitational force perpendicular to the surface: {{c1::Fg = m * g * cos(θ)}}
Published	03/29/2024	Give the equation for the normal force on an object that sits on an incline plane:{{c1::}}
Published	03/29/2024	Give the equation for the force of friction on an object that sits on an inclined plane:{{c1::}}
Published	03/29/2024	Give the equation for the change in internal energy of a system:{{c1::}}
Published	03/29/2024	Give the equation for the internal energy for a monatomic ideal gas system:{{c1::}}
Published	03/29/2024	Give the equation for work done on a gas by an outside force:{{c1::}}
Published	03/29/2024	Give the equation for heat released or absorbed by a system:{{c1::}}
Published	03/29/2024	Give the equation for heat transferred during a phase change (heat of transformation):{{c1::}}
Published	03/29/2024	Give the equation for Gibb's free energy as a function of enthalpy, entropy, and temperature:{{c1::}}
Published	03/29/2024	Give the equation for heat of reaction as a function of product and reactant enthalpies:{{c1::}}
Published	03/29/2024	Give the equation for the ideal gas law:{{c1::}}
Published	03/29/2024	Give the Henderson–Hasselbalch equation:{{c1::}}
Published	03/29/2024	Give the equation for molarity:{{c1::\(M=\frac{moles~of~solute}{liters~of~\textbf{solution}~}\)}}
Published	03/29/2024	Give the equation for molality:{{c1:: \(m=\frac{moles~of~solute}{mass~of~\textbf{solvent}~(kg)}\)}}
Published	03/29/2024	Give the equation for pH as a function of proton concentration:{{c1::\(pH=-log[H^+]\)}}
Published	03/29/2024	Give the formula for the dilution of a solution:{{c1::M1V1=M2V2}}
Published	03/29/2024	Give the formula for osmotic pressure: {{c1::π=iMRT}}
Published	03/29/2024	Give the equation for freezing point depression: {{c1::ΔTf=iKfm}}
Published	03/29/2024	Give the equation for boiling point elevation: {{c1::ΔTb=iKbm}}
Published	03/29/2024	Give the equation for mole fraction:{{c1::\(X_A=\frac{mol_A}{mol_{total}~}\)}}
Published	03/29/2024	Give the equation for period of a wave:{{c1::\(T=\frac{1}{f}\)}}
Published	03/29/2024	Give the equation for Snell's law:{{c1::\(n_1sin(\theta_1) = n_2sin(\theta_2)\)}}
Published	03/29/2024	Give the formula for index of refraction:{{c1::\(n = \frac{c}{v}\)}}
Published	03/29/2024	Give the equation for energy of a photon:{{c1::\(E = \frac{hc}{\lambda} = hf\)}}
Published	03/29/2024	Give the equation for magnification of a lens:{{c1::\(M = \frac{h_i}{h_o} = -\frac{d_i}{d_o}\)}}
Published	03/29/2024	Give the thin lens equation:{{c1::\(\frac{1}{f} = \frac{1}{d_i}+\frac{1}{d_o}\)}}
Published	03/29/2024	Give the Rydberg formula:{{c1::\(E=hf = \frac{hc}{\lambda}= R_{H}(\frac{1}{n^2_{initial}~} - \frac{1}{n^2_{final}~})\)}}
Published	03/29/2024	Give the formula for intensity of sound:{{c1::\(dB = 10log(\frac{I}{I_o})\)}}
Published	03/29/2024	Give the equation for the length of a wave in a pipe that has one closed end:{{c1::\(\lambda = \frac{4L}{n}\) with (n = 1, 3, 5,..…
Published	03/29/2024	Give the equation for the length of a wave in a pipe that has two open ends:{{c1::\(\lambda = \frac{2L}{n}\) with (n = 1, 2,...)}}
Published	03/29/2024	Give the equation for the frequency of a beat created by two sound waves that are of different frequency:{{c1::fbeat = \|f1 - f2\|}}
Published	03/29/2024	Give the equation for the observed frequency during the doppler effect:{{c1::\(f' = f[\frac{v\pm v_o}{v\pm v_s}]\)}}
Published	03/29/2024	Give the equation for density:{{c1::\(\rho = \frac{m}{v}\)}}
Published	03/29/2024	Give the equation for pressure:{{c1::\(P = \frac{F}{A}\)}}
Published	03/29/2024	Give the equation for absolute pressure (pressure in a fluid):{{c1::\(P = P_{0} + \rho gh\)}}
Published	03/29/2024	Give the equation for buoyant force:{{c1::\(F_b = \rho Vg = mg\)}}
Published	03/29/2024	Give the equation for volumetric flow rate:{{c1::\(Q = Av\)}}
Published	03/29/2024	Give the equation for potential energy of a charged particle in an electric field:{{c1::\(U_{elect} = \frac{kq_1q_2}{r} = qV\)}}
Published	03/29/2024	Give the equation for the force between two charged particles:{{c1::\(F = \frac{k\|q_1\|\|q_2\|}{r^2}\)}}
Published	03/29/2024	Give the equation for the magnitude of the electric field created by a point charge:{{c1::\(E = \frac{kQ}{r^2}\)}}
Published	03/29/2024	Give the equation for electric potential at a point in space:{{c1::\(V = \frac{kQ}{r}\)}}
Published	03/29/2024	Give the equation for magnetic force of a moving point charge:{{c1::\(F = qvBsin(\theta)\)}}
Published	03/29/2024	Give the equation for magnetic force on a current carrying wire:{{c1::\(F = ILBsin(\theta)\)}}
Published	03/29/2024	Give the Ohm’s law equation:{{c1::\(V=IR\)}}
Published	03/29/2024	Give the equation for electric field strength in a capacitor:{{c1::\(E_{cap} = \frac{Q}{\epsilon_0A} = \frac{\Delta V}{d}\)}}
Published	03/29/2024	Give the equation for charge stored in a capacitor as a function of capacitance and voltage:{{c1::\(Q = C\Delta V\)}}
Published	03/29/2024	Give the equation for capacitance that includes area and distance:{{c1::\(C = \frac{\epsilon_0A}{d}\)}}
Published	03/29/2024	Give the equation for potential energy of a capacitor:{{c1::\(U_{cap} = \frac{1}{2}C\Delta V^2\)}}
Published	03/29/2024	Give the equation for cell potential:{{c1::\(E_{cell} = E_{cath} - E_{an}\)}}
Published	03/29/2024	Give the equation for resistance through a material:{{c1::\(R = \frac{\rho L}{A}\)}}
Published	03/29/2024	Give the equation for voltage of an alternating current:{{c1::\(V_{RMS} = \frac{V_{max}~}{\sqrt{2}~}\)}}
Published	03/29/2024	Give the equation for current when using alternating current:{{c1::\(I_{RMS} = \frac{I_{max}~}{\sqrt{2}~}\)}}
Published	03/29/2024	Give the equation for total resistance when the resistors are in series:{{c1::\(R_{tot} = R_1 + R_2 + ...\)}}
Published	03/29/2024	Give the equation for total resistance when the resistors are in parallel:{{c1::\(R_{tot} = \frac{1}{\frac{1}{R_1} + \frac{1}{R_2} + ...}\)}}
Published	03/29/2024	Give the equation for total capacitance when the capacitors are in series:{{c1::\(\frac{1}{C_{tot}~} = \frac{1}{C_1} + \frac{1}{C_2} + ...\)…
Published	03/29/2024	Give the equation for total capacitance when the capacitors are in parallel:{{c1::\(C_{tot} = C_1 + C_2 + ...\)\(+ C_n\)}}
Published	03/29/2024	Avogadro's number = {{c1::6.02 x 1023}}
Published	03/29/2024	Give the value of the gas constant, R:{{c1::\(R = 8.314 \frac{J}{mol \cdot K}\) or \(R = 0.0821 \frac{L \cdot atm}{mol \cdot K}\)}}
Published	03/29/2024	Give the value of Planck's constant, h:{{c1::\(h = 6.626 \times 10^{-34}~\frac{kg \cdot m^2}{s}\)}}
Published	03/29/2024	The density of water is:{{c1::\(1 \frac{g}{cm^3} = \frac{1~kg}{L} = \frac{1000~kg}{m^3}\)}}
Published	03/29/2024	The speed of light in a vacuum is:{{c1::\(c = 3.0 \times 10^8~\frac{m}{s}\)}}
Published	03/29/2024	Faraday's constant is:{{c1::96500 \(\frac{C}{mol}\)}}
Published	03/29/2024	The units for Newton are:{{c1::\(N = \frac{kg \cdot m}{s^2}\)}}
Published	03/29/2024	The units for Joule are:{{c1::\(J = \frac{kg \cdot m^2}{s^2} = Nm\)}}
Published	03/29/2024	The definition of a Pascal in terms of SI base units is:{{c1::\(Pa = \frac{N}{m^2}\)}}
Published	03/29/2024	Express the SI unit Volt (V) in terms of energy and electrical charge:{{c1::\(V = \frac{J}{C}\)}}
Published	03/29/2024	The units for ohm are:{{c1::\(\Omega = \frac{V}{A}\)}}
Published	03/29/2024	The units for ampere are:{{c1::\(A = \frac{C}{sec}\)}}
Published	03/29/2024	The units for Farad are:{{c1::\(F = \frac{C}{V}\)}}
Published	03/29/2024	The units for watt are:{{c1::\(W = \frac{J}{sec} = VA\)}}
Published	03/29/2024	Give the Arrhenius equation:{{c1::\(k = A\times e^{\frac{-E_a}{RT}~}\)}}
Published	03/29/2024	The equation related to Hooke's law is:{{c1::Fs = -k𝑥}}
Status	Last Update	Fields