Q3. Péclet number - We've seen the Péclet number Pévlas a useful metric toDdetermine if stirring (Pé > 1) is more efficient than diffusion (Pé < 1) for mixingsolutions. "Stirring" here can designate any process which applies a force on the molecules,resulting in a velocity v.a) Show that the Péclet number, like the Reynolds number, is unitless.Let's think about why scale (f) matters for mixing. 2-DNA, a DNA polymer containing48,502 base pairs, has a diffusion coefficient of Dfield of 1 V/m, we can expect 1-DNA to reach a terminal velocity of 30 nm/s.6.4 × 10-13m²s¬1. Under an electricb) Find the Péclet number for a system of dimension of e = 10 cm. This correspondsto the scale of most benchtop instruments used to manipulate or separatebiomolecules.c) Find the Péclet number for a system of dimension of eto the scale over which most cellular processes occur.d) Find the scale l for which diffusion is just as efficient as electric field for displacing= 10 µm. This corresponds2-DNA.

Given,Pe,clet number , Pe,=vlDv, terminal velocity = 30 nm = 3×10-8 m/sD, Diffusion coefficient =…

ve Q3. Péclet number - We've seen the Péclet number Pé = as a useful metric to " D determine if stirring (Pé > 1) is more efficient than diffusion (Pé < 1) for mixing solutions. "Stirring" here can designate any process which applies a force on the molecules, resulting in a velocity v. a) Show that the Péclet number, like the Reynolds number, is unitless. Let's think about why scale (1) matters for mixing. λ-DNA, a DNA polymer containing 48,502 base pairs, has a diffusion coefficient of D 6.4 x 10-13m²s-1. Under an electric field of 1 V/m, we can expect λ-DNA to reach a terminal velocity of 30 nm/s. =

ve Q3. Péclet number - We've seen the Péclet number Pé = as a useful metric to " D determine if stirring (Pé > 1) is more efficient than diffusion (Pé < 1) for mixing solutions. "Stirring" here can designate any process which applies a force on the molecules, resulting in a velocity v. a) Show that the Péclet number, like the Reynolds number, is unitless. Let's think about why scale (1) matters for mixing. λ-DNA, a DNA polymer containing 48,502 base pairs, has a diffusion coefficient of D 6.4 x 10-13m²s-1. Under an electric field of 1 V/m, we can expect λ-DNA to reach a terminal velocity of 30 nm/s. =

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Question

Q3. Péclet number - We've seen the Péclet number Pé
vl
as a useful metric to
D
determine if stirring (Pé > 1) is more efficient than diffusion (Pé < 1) for mixing
solutions. "Stirring" here can designate any process which applies a force on the molecules,
resulting in a velocity v.
a) Show that the Péclet number, like the Reynolds number, is unitless.
Let's think about why scale (f) matters for mixing. 2-DNA, a DNA polymer containing
48,502 base pairs, has a diffusion coefficient of D
field of 1 V/m, we can expect 1-DNA to reach a terminal velocity of 30 nm/s.
6.4 × 10-13m²s¬1. Under an electric
b) Find the Péclet number for a system of dimension of e = 10 cm. This corresponds
to the scale of most benchtop instruments used to manipulate or separate
biomolecules.
c) Find the Péclet number for a system of dimension of e
to the scale over which most cellular processes occur.
d) Find the scale l for which diffusion is just as efficient as electric field for displacing
= 10 µm. This corresponds
2-DNA.

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