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It depends on the molecular weight and 3-D structure of the polymer.
inter molecular forces or inner molecular forces
The only short answer I can think of for this question is "no".Electric charge is a property of certain fundamental particles. We don't know why they have the specific charges they do, they just do. When you lump them together into an atom ... or anything else ... whether that "lump" ends up with an overall charge or not depends on whether the charges on the fundamental particles within it cancel out or not. For neutrons they do; for protons they don't.
Depends on what the sample is and how much of it you have.
Extensive property
Resistance
It depends on the molecular weight and 3-D structure of the polymer.
The hardness, density, and crystal structure.
inter molecular forces or inner molecular forces
The speed of sound depends on the medium the waves pass through, and is a fundamental property of the material. It itself cannot increase wave length as it is merely a property and not an active force that can modify anything.
The only short answer I can think of for this question is "no".Electric charge is a property of certain fundamental particles. We don't know why they have the specific charges they do, they just do. When you lump them together into an atom ... or anything else ... whether that "lump" ends up with an overall charge or not depends on whether the charges on the fundamental particles within it cancel out or not. For neutrons they do; for protons they don't.
The only short answer I can think of for this question is "no".Electric charge is a property of certain fundamental particles. We don't know why they have the specific charges they do, they just do. When you lump them together into an atom ... or anything else ... whether that "lump" ends up with an overall charge or not depends on whether the charges on the fundamental particles within it cancel out or not. For neutrons they do; for protons they don't.
The only short answer I can think of for this question is "no".Electric charge is a property of certain fundamental particles. We don't know why they have the specific charges they do, they just do. When you lump them together into an atom ... or anything else ... whether that "lump" ends up with an overall charge or not depends on whether the charges on the fundamental particles within it cancel out or not. For neutrons they do; for protons they don't.
The color of light a material reflects depends on its molecular structure. For example, grass reflects green light so it appears green while it absorbs the other colors.
Density
Depends on what the sample is and how much of it you have.
Generally no. There are some cases where color is due to the structure of the object and not a pigment, and in those it would properly be considered an extensive property. (An example of color as an extensive property would be the shifting colors seen on a thin film of oil: the color depends on the thickness of the film, not on any intrinsic property of the oil itself.)