(a) Give the Van Deemter equation for plate height and describe the A, B and C...

Van Deemter equation is written as: H = A + B/u + Cu where u is...

Van Deemter equation is written as: H = A + B/u + Cu where u is mobile phase linear velocity. Sketch a typical van Deemter plot to show how H depends on u, and briefly explain each term in the equation and sketch how each depends on u.

Explain how each of the following would affect plate height (increase, decrease, leave unchanged). Briefly justify...

Explain how each of the following would affect plate height (increase, decrease, leave unchanged). Briefly justify each of your answers by indicating which terms in the van Deemter equation (A, B, C) would be affected and how. A. smaller particle size of stationary phase B. larger film thickness on stationary phase C. a distribution of particles sizes in the stationary phase packing D. small diffusion coefficient of the analyte E. lower solvent viscosity (LC)

For questions 5-9, indicate which terms (i.e. A, B, C) in the van Deemter equation will...

For questions 5-9, indicate which terms (i.e. A, B, C) in the van Deemter equation will be affected and how. 5.     A smaller particle size of the stationary phase packing A.   Decrease A only B.    Decrease C only C.    Increase A but decrease C D.   Decrease both A and C E.    Increase B 6.     A larger film thickness on the stationary phase packing A.   Decrease B only B.    Increase A only C.    Increase...

1. Describe the characteristics of Van der Waals Forces in terms of (a) strength, (b) directionality,...

1. Describe the characteristics of Van der Waals Forces in terms of (a) strength, (b) directionality, (c) range, (d) dependence on temperature. 2. Discuss why Van der Waals forces are one of the predominant stabilising forces in biomolecules despite us weak bond strength.

The van der Waals equation of state is (P + a(n/V )^2)(V/n − b) = RT,...

The van der Waals equation of state is (P + a(n/V )^2)(V/n − b) = RT, where a and b are gas-specific constants. For Hydrogen gas, a = 2.45 × 10^-2P a · m^6 and b = 26.61 × 10^-6m^3/mol, while for an ideal gas a = b = 0. (a) Consider trying to measure the ideal gas constant in a lab from the relation R = P V/(nT), where P, V, n, and T are all measured parameters. However,...

Pre -Laboratory Assignment 1. Briefly describe or define each of the following terms as they pertain...

Pre -Laboratory Assignment 1. Briefly describe or define each of the following terms as they pertain to this experiment. a) Spotting a plate b) Developing a plate c) Visualizing d) Rf e) eluent f) stationary phase 2. List the following solvents in order of increasing polarity: dichloromethane, acetone, toluene and cyclohexane. 3. Your unknown sample moved a distance of 25 millimeter from its origin while the distance traveled by the eluent from the origin was 55 millimeters. What is the...

Describe how the following three subjects are interrelated: (give an example) a. Capital structure  b. Leverage   c. Risk   

Describe how the following three subjects are interrelated: (give an example) a. Capital structure  b. Leverage   c. Risk   

Particles with energy E, are incident from the left, on the step-potential of height V0 =...

Particles with energy E, are incident from the left, on the step-potential of height V0 = 2E as shown: a. What are the wave numbers in the two regions, 1 k and 2 k , in terms of E? b. Write down the most general solutions for the Schrodinger Equation in both regions? Identify, with justification, if any of the coefficients are zero. c. Write down the equations that result for applying the boundary conditions for the wave functions at...

Letr(t)=(4t2+1)i+2tjfor−2≤t≤2. (a) (10 pts) Draw a sketch of the curve C determined by r(t). (b) (5...

Letr(t)=(4t2+1)i+2tjfor−2≤t≤2. (a) (10 pts) Draw a sketch of the curve C determined by r(t). (b) (5 pts) Plot r(0) and label its endpoint P. (c) (10 pts) Plot the vector tangent to C at P . (d) (10 pts) Find the equation of the line tangent to C at P (you may give this parametrically or not). (e) (5 pts) Find the curvature K at P . (f) (5 pts) Find the radius of curvature ρ at P. (g) (5...

The motion of an underdamped oscillator is described by equation x=Ae−(b/2m)tcos(ω′t+ϕ). Let the phase angle ϕ...

The motion of an underdamped oscillator is described by equation x=Ae−(b/2m)tcos(ω′t+ϕ). Let the phase angle ϕ be zero. Part A According to this equation, what is the value of x at t=0? Express your answer in terms of the variables A, b, m, ω, and ϕ. x(0) = A SubmitMy AnswersGive Up Correct Part B What is the magnitude of the velocity at t=0? Express your answer in terms of the variables A, b, m, ω, and ϕ. vx(0) =...