 Hello friends....i have two doubts on SA/V ratio

1) Whether the S.A/V ratio depends only on size & shape.....or else on its orientation or inclined position also?

2)Whether the S.A/V ratio is same for both cube and sphere?

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Replies to This Discussion

YesS.A./V ratio only depends on the size and shape so the S.A./V ratio for sphere and cube is different. Nanomaterials, Nanotechnologies, and Design: An Introduction for En...

Sandeep,

Refer to Chapters 6.1 and 6.2 of the publication above (beginning on page 177; specifically figure 6.18, .19, .. and equations on page 186) for given nanostructure formulae of various nanomaterial classes (discrete, surface, bulk), shape:size effects, their dimensionality, radii of spheres, cylinders, etc..., surface curvature, strain confinement, and quantum effects. Click on title line; I have supplied the link.

As to orientation|inclination, Mathematica/WolframAlpha should enable you to create a simulation WolframAlpha.com Wolfram/Mathematica (Sample: Simulate thousands of particles in rea...

SA/V of cube=6/a..:a is the side of cube

and sphere is 3/r...where r is the radius of sphere....

But if we think logically we can write "a=2r" as sphere fits into cube and then calculate both are same...

Apoorva Mahendra Ranjekar said:

YesS.A./V ratio only depends on the size and shape so the S.A./V ratio for sphere and cube is different.

Thank you for replying me....But while we calculating mathematically, do we need to calculate by keeping constant volume or constant size.....

Jyoti Mayekar said:

Thank you for advising me..i will go through the material....

LaVerne L Poussaint said: Nanomaterials, Nanotechnologies, and Design: An Introduction for En...

Sandeep,

Refer to Chapters 6.1 and 6.2 of the publication above (beginning on page 177; specifically figure 6.18, .19, .. and equations on page 186) for given nanostructure formulae of various nanomaterial classes (discrete, surface, bulk), shape:size effects, their dimensionality, radii of spheres, cylinders, etc..., surface curvature, strain confinement, and quantum effects. Click on title line; I have supplied the link.

As to orientation|inclination, Mathematica/WolframAlpha should enable you to create a simulation WolframAlpha.com Wolfram/Mathematica (Sample: Simulate thousands of particles in rea...

Hi mam....

i have gone through the equations 6.3, 6.4, and 6.5 and also figure 6.18.....

I have a small doubt ..with what respective they have drawn the graph.....like for Sphere and Cylinder the expressions are in radius R and for cube it is side length L....so is it necessary to make relation between them while comparing all three right.....

sandeep said:

Thank you for advising me..i will go through the material....

LaVerne L Poussaint said: Nanomaterials, Nanotechnologies, and Design: An Introduction for En...

Sandeep,

Refer to Chapters 6.1 and 6.2 of the publication above (beginning on page 177; specifically figure 6.18, .19, .. and equations on page 186) for given nanostructure formulae of various nanomaterial classes (discrete, surface, bulk), shape:size effects, their dimensionality, radii of spheres, cylinders, etc..., surface curvature, strain confinement, and quantum effects. Click on title line; I have supplied the link.

As to orientation|inclination, Mathematica/WolframAlpha should enable you to create a simulation WolframAlpha.com Wolfram/Mathematica (Sample: Simulate thousands of particles in rea...

Hi mam....

i have gone through the equations 6.3, 6.4, and 6.5 and also figure 6.18.....

I have a small doubt ..with what respective they have drawn the graph.....like for Sphere and Cylinder the expressions are in radius R and for cube it is side length L....so is it necessary to make relation between them while comparing all three right.....

so do we need to make volume constant or size constant in the case

sandeep said:

Thank you for advising me..i will go through the material....

LaVerne L Poussaint said: Nanomaterials, Nanotechnologies, and Design: An Introduction for En...

Sandeep,

Refer to Chapters 6.1 and 6.2 of the publication above (beginning on page 177; specifically figure 6.18, .19, .. and equations on page 186) for given nanostructure formulae of various nanomaterial classes (discrete, surface, bulk), shape:size effects, their dimensionality, radii of spheres, cylinders, etc..., surface curvature, strain confinement, and quantum effects. Click on title line; I have supplied the link.

As to orientation|inclination, Mathematica/WolframAlpha should enable you to create a simulation WolframAlpha.com Wolfram/Mathematica (Sample: Simulate thousands of particles in rea...

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