No, it is a fundamental mechanical property of the material
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The answer will depend on what THESE intercepts are!
The area of a wall is length x height. You can base your calculation on that. The result, of course, will depend on the wall's height.
Linear is "in a line" so linear measurements are length.
A linear foot is also one foot; it is a length. For example if you buy a rug runner that is 3 feet wide by 18 feet long its length is 18 linear feet
The coefficient of linear expansion DOES not depend on the length. Each material has a certain value for its coeeficient of linear expansion. The length of the material dictates how much it will expand linearly for a given rise in temperature. L" = L'(1 + a x (T'' - T')) That is the length at temperature T'' which is higher than temperature T' is given by the length L' at temperature T' multiplied by the quantity [1 + a x (T" - T')], where a is the coefficient of linear expansion which is constant for a given material. Thus if the temperature difference T" - T' is large then the expansion will be large which means L" - L' will be large. Likewise if the original length L' is large, then the corresponding expanded length L" will be large
No. It's a ratio between two numbers, and it doesn't depend on the specific length, or on the units used.
yes,according to relation coefficient of linear expansion depends upon original length.
Linear expansion depends upon three factors: 1. Length of rod 2. Change in temperature 3. Nature of material of the rod.
If a body is heated and after heating the body if the expand in one dimension then it is called linear expansion
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The answer will depend on linear WHAT!
the expansion is strain e times length L or y = eL if strain is temperature related then e = CTE x temperature T where CTE is linear thermal expansion coefficient or y = CTE x L x T
Linear expansion apparatus is the apparatus used to measure the objects to these following properties: -> coefficient linear expansion -> coefficient thermal expansion -> specific gravity -> specific heat -> thermal conductivity -> thermal resistivity -> breaking strength and many others..
-39 degrees celsius to 450 degrees celsius
no it will not change if the lengths are different units. That is because it is defined as length/length per degree and as you see length cancels out. Its units are simply per degree only
Since most metals are isotropic, the cubical coefficient of expansion is three times the linear coefficient of expansion. The linear coefficient of expansion is obtained from measurement and tables for the specific material which are readily available.