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Invar (a special iron - nickel alloy) is used in pendulam instead of aluminium ,in order to decrease the expansivity.
It is defined as close in temperature of substance
Linear programming approach does not apply the same way in different applications. In some advanced applications, the equations used for linear programming are quite complex.
Accurate linear measurement.
The applications are in finding optimum solutions to a linear objective function, subject to a number of linear constraints.
Invar (a special iron - nickel alloy) is used in pendulam instead of aluminium ,in order to decrease the expansivity.
The coefficient of cubical expansivity would normally be the cube of the coefficient of linear expansivity unless that coefficient is different in different directions for a material. In that case it would be the product of the linear coefficients in the different directions.
2*linear expansitivity
It is defined as close in temperature of substance
Linear expansivity is the increase in length per unit length per degree rise in temperature. While cubic expansivity is the increase in volume per unit in volume per degree rise in temperature.
It is easier to open because the hot water is like fire. So the cap is not strong to hold the hot water. becouse the top expands befour the heat reaches the bottle which makes it a looser fit
Linear programming approach does not apply the same way in different applications. In some advanced applications, the equations used for linear programming are quite complex.
You can test the bimetallic strip's expansivity by placing it in a hot or cold environment, such as a refrigerator or a Bunsen burner. The strip that contracts or expands more has a higher expansivity than the other.
No. The expansivity is on a per unit basis just like the specific heat or density is.
Accurate linear measurement.
The applications are in finding optimum solutions to a linear objective function, subject to a number of linear constraints.
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