No, with decrease in temperature it increases a bit, but not much; perhaps by 3% or so
There is no simple answer for this. It can vary a lot depending on many factors, such as grading, stress history etc. There is no simple answer for this. It can vary a lot depending on many factors, such as grading, stress history etc.
The current will of course vary with the intensity of the imparted light and with the temperature of the panel.
That depends on the hardness (durometer) of the rubber. It can be quite low and range from 100 psi to over 1000 psi. If it is very thin, then since it is nearly incompressible (poisson ratio approaches 0.5) then the modulus increases to a much higher value, depending on thickness , and can vary from 1000 psi to 10000 psi in general, and approach over 300,000 psi in the limit. You need to know the dimensions and durometer.
For the majority of applications, ABS can be used between −25 and 60 °C as its mechanical properties vary with temperature, at which it becomes flexible.
It will vary slightly with changes in atmospheric pressure, but is approximately 472ºF.
The bulk modulus of oil can vary based on factors such as temperature and pressure. However, for oil meeting the MIL-L-23699 specification, the typical bulk modulus is around 1.8-2.0 GPa.
The value for the cleavage plane (100) is 38 GPa and the value for the cleavage plane (001) is 33 GPa.
The shear modulus and Young's modulus are related in materials as they both measure the stiffness of a material, but they represent different types of deformation. Young's modulus measures the material's resistance to stretching or compression, while the shear modulus measures its resistance to shearing or twisting. In some materials, there is a mathematical relationship between the two moduli, but it can vary depending on the material's properties.
Yes it can vary in temperature because then it would never melt
The Young's modulus of candle wax can vary depending on the type of wax, but typical values range from 0.1-0.5 GPa. This means that candle wax is relatively soft and deformable compared to many other materials.
To find the Young's modulus of steel or any other material you require a plot of it's deformation response to loading. Specifically it's axial stress vs axial strain. From this you need to find the gradient of the straight line portion of the curve where the material is behaving elastically and obeying Hooke's law. This is essentially stress / strain and gives you Young's modulus.
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It would vary depending, mainly, on ambient temperature
The poison ratio for S235JR EN10025 is typically around 0.25-0.30, and the Young's modulus is approximately 200 GPa. These values may vary slightly based on specific material compositions and processing conditions.
As temperature increase pressure will increase
Elasticity varies along a straight-line demand curve by being different at different points. At the top of the curve, elasticity is more elastic, meaning small changes in price lead to larger changes in quantity demanded. At the bottom of the curve, elasticity is less elastic, meaning changes in price have less impact on quantity demanded.
The speed of sound through a caustic medium can vary depending on the properties of the material. In general, the speed of sound is determined by the material's density and elasticity. For example, in air at room temperature and pressure, sound travels at approximately 343 meters per second.