Derive the Kremser equation analytically to solve dilute-gas absorption based design problems. Kremser equation is defined...

Derive the Kremser equation analytically to solve dilute-gas absorption based design problems. Kremser equation is defined in Wankat Equation 12-22 (pp. 466; section 12.4 of 3rd edition textbook). Remember to define all variables/parameters used and clearly state all assumptions.

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Amanda K answered 6 months ago

To derive the ideal-gas equation, we assume that the volume of the gas atoms/molecules can be...

To derive the ideal-gas equation, we assume that the volume of the gas atoms/molecules can be neglected. Given the atomic radius of krypton, 1.1 Å, and knowing that a sphere has a volume of 4πr3/3, calculate the fraction of space that Kr atoms occupy in a sample of krypton at STP. Express your answer using two significant figures.

design and conduct an experiment that will enable you to derive an equation for the horizontal...

design and conduct an experiment that will enable you to derive an equation for the horizontal and vertical coordinates of a balls projectile motion . predict the following ; launch speed , predict the landing point from the launch speed , predict the landing point from t

Solve the following problems. a) What is the order of the differential equation ? ′ =...

Solve the following problems. a) What is the order of the differential equation ? ′ = ? 2 − 3? − 10? Is it linear ? b) Determine whether the differential equation ? ′ = ? 2 − 3? − 10 possesses constant solutions. If yes find these constant solutions. c) Find the value(s) of ? so that the function ? = ? ?? is a solution of ? ′′ − 3? ′ − 10? = 0. Do you think...

1. Set-up the appropriate differential equation(s) and solve to derive the general equation of motion for...

1. Set-up the appropriate differential equation(s) and solve to derive the general equation of motion for a human sized “dummy” moving vertically (up/down) under the following assumptions: (a)The initial elevation is h0 ft. (b)The initial velocity is V0 ft./sec. (c)All motion vertical (ignore any sideways motion). (d)The force due to wind is proportional to velocity and in the opposite direction of velocity. (e)The “terminal velocity” is 120mph (e.g. lim t→∞ (V)= 120 mph). (f)Force = Mass * Acceleration. (g)Acceleration due to...

for a diatomic perfect gas , derive the equation for entropy S , enthalpy H ,...

for a diatomic perfect gas , derive the equation for entropy S , enthalpy H , Gibbs energy G . and Helmholtz energy A

ISLM-Model Y=C(Y-T)+I(r)+G How can I analytically (and step by step) derive from this equation that the...

ISLM-Model Y=C(Y-T)+I(r)+G How can I analytically (and step by step) derive from this equation that the IS curve slopes downwards? Please explain thoroughly. TIA

3) Derive the matrix equation used to solve for the coefficients for least-squares polynomial regression for...

3) Derive the matrix equation used to solve for the coefficients for least-squares polynomial regression for a quadratic model. 4) Derive the matrix equation used to solve for the coefficients for least-squares multiple linear regression for a function of 2 variables.

1) Derive the Clausius-Clapeyron equation for an ideal gas and ideal liquid: Liquid (Phase A) ↔...

1) Derive the Clausius-Clapeyron equation for an ideal gas and ideal liquid: Liquid (Phase A) ↔ Gas (Phase B) Begin with the equation relating chemical potential of the two phases (?A , ?B ), assuming these phases are at equilibrium (as they are assumed to be along the liquid-gas coexistence curve on a P-T phase diagram) Include all necessary detail in your derivation to demonstrate your understanding. Then, Using the equation you derived in number 1, determine at which pressure...

Solve the ordinary differential equation analytically: y''-4y-+3y = 5cos(x) + e^(2x) y(0)=1, y'(0)=0

non-homogeneous ODE. solve this equation analytically. -2y''+5y'+3y=exp(-0.2x) b.c y'(0)=1, y'(10)=-y(10)

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