If the 'cube' embryo nucleates in liquid by homogeneous nucleation, Please derive the ΔG, r*, ΔG*

A homogeneous liquid phase reaction A -> R, rA = -kCA^2 takes place with 50% conversion...

A homogeneous liquid phase reaction A -> R, rA = -kCA^2 takes place with 50% conversion in a mixed reactor (CSTR). What will be the conversion if this reactor is replaced by one 6 times as large-all else remaining unchanged?

(a) For the solidification of iron, calculate the critical radius r* and the activation free energy...

(a) For the solidification of iron, calculate the critical radius r* and the activation free energy ΔG* if nucleation is homogeneous. Values for the latent heat of fusion and surface free energy are –1.85 × 109 J/m3 and 0.204 J/m2, respectively. Use the supercooling value ΔT = 262 K, and the melting point of iron is 1538°C. Critical Radius, r* = nm Activation Free Energy ΔG* = J (b) Now calculate the number of atoms found in a nucleus of...

(a) For the solidification of copper, calculate the critical radius r* and the activation free energy...

(a) For the solidification of copper, calculate the critical radius r* and the activation free energy ΔG* if nucleation is homogeneous. For solving this you need to find values for the latent heat of fusion and surface free energy and melting temperature in the literature. Use the supercooling value found in Table 10.1 of the textbook. (b) Now calculate the number of atoms found in a nucleus of critical size. Assume a lattice parameter of 0.362 nm for solid copper...

A cylindrical tank of radius R is filled with a liquid of density  to a...

A cylindrical tank of radius R is filled with a liquid of density  to a height H above its bottom. It has a small hole of radius r in the mantle at distance h above its bottom. Air pressure equals p0. You are to use Bernoulli’s equation to compute the flow velocity of the fluid as it exits the hole. a) Prepare a diagram. Indicate the location of the two points that you choose when applying Bernoulli’s equation. What...

Derive the Fourier transform of a cylinder with a radius of R and length of L....

Derive the Fourier transform of a cylinder with a radius of R and length of L. Please explain the steps. No detail is too much.

Derive the transfer function H’(s)/Q’(s) for the liquid-level system when a. The tank level operates about...

Derive the transfer function H’(s)/Q’(s) for the liquid-level system when a. The tank level operates about the steady-state value of hs = 1 ft. b. The tank level operates about the steady-state value of hs = 3 ft. The pump removes water at a constant rate of 10 cfm (cubic feet per minute); this rate is independent of head. The cross-sectional area of the tank is 1.0 ft2 and the resistance R is 0.5 ft/cfm.

Problem 1 Consider the liquid phase reaction A à products accelerated by a homogeneous catalyst dissolved...

Problem 1 Consider the liquid phase reaction A à products accelerated by a homogeneous catalyst dissolved in the solution. The observed rate data follows the form: -r=k1Ca/(1+K2Ca+K3(Ca^2)) You are asked to recommend either a steady CSTR or steady PFR. Your reactor must reduce the feed composition of 0.6 mole/liter down to 0.3 mole/liter in the effluent. • Create a plot of ordinate 1/(-rA) vs. abscissa CA. Use the data below. Use sufficient resolution in your plot to get a smooth...

** Please answer the question without using Calculus. This is an algebra based Physics course. Thank...

** Please answer the question without using Calculus. This is an algebra based Physics course. Thank you! ** Isaac Newton guessed at the concept of his law of universal gravitation. However, he did consider other possibilities, too. Imagine we take the acceleration due to gravity to obey an inverse-cube rather than inverse-square equation: a = GM/r3. Again, M is the mass of a spherical, homogeneous body, r is the radial distance from the center of that body to any point...

** Please answer the question without using Calculus. This is an algebra based Physics course. Thank...

** Please answer the question without using Calculus. This is an algebra based Physics course. Thank you! ** Isaac Newton guessed at the concept of his law of universal gravitation. However, he did consider other possibilities, too. Imagine we take the acceleration due to gravity to obey an inverse-cube rather than inverse-square equation: a = GM/r3. Again, M is the mass of a spherical, homogeneous body, r is the radial distance from the center of that body to any point...