Want this question answered?
For a given material, a wire of smaller cross-section will have higher resistance per unit length.
Malleable material
Resistivity is a property of the material only, not of the dimensions of the wire. The resistance of a wire is the resistivity times the length divided by the cross-section area. So a long wire has more resistance, a thicker wire has less resistance, even if they are both made of copper with the same resistivity.
Any conducting material. Thin metal foil is common.
copper
For a given material, a wire of smaller cross-section will have higher resistance per unit length.
Malleable material
Your Foot!
Property of a material by virtue of which, it can be drawn into thin.. wire.
mostly feldspar
Resistivity is a property of the material only, not of the dimensions of the wire. The resistance of a wire is the resistivity times the length divided by the cross-section area. So a long wire has more resistance, a thicker wire has less resistance, even if they are both made of copper with the same resistivity.
Because it is possible that when you cut a thin slice of the section, the nucleus will remain in the rest of the section.
circles, spheres and cylinders hold pressure well, because the pressure is evenly distributed. There's less likelihood of a rupture in thin material.
thin peeling of the leaf.
It is zero. Unless a width is specified, a cross-section is an infinitesimally thin slice across the axis of the object.It is zero. Unless a width is specified, a cross-section is an infinitesimally thin slice across the axis of the object.It is zero. Unless a width is specified, a cross-section is an infinitesimally thin slice across the axis of the object.It is zero. Unless a width is specified, a cross-section is an infinitesimally thin slice across the axis of the object.
because it is made from thin cotton and other thin fibers
First of all, we have not even observed an atmosphere on Pluto yet. It is theorized that Pluto has a very thin atmosphere, much too thin for wind.