The bulk modulus of water is approximately 2.2 GPa at room temperature. The speed of sound in water is around 1482 m/s and the density of water is 1000 kg/m^3.
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.
I meant lower linear density, but I can't change it. So for example for Aluminum the Linear density of [111] is lower than for [110] and that is again lower than [100]. But you notice that the modulus of elasticity is higher for [111] than for [110] and that again is higher than for [100]
Young's modulus is SI system is GPa (Giga-pascal). A Pa is a pascal with base units of Newtons per meter squared, or kilogram-meter/second squared per meter squared
Yes, Young's Modulus is the same as Modulus of Elasticity.
Yes, the modulus of elasticity is the same as Young's modulus.
The two main factors that affect the speed of sound in a material are the density of the material and the elasticity of the material. In general, sound travels faster in materials that are more dense and have higher elasticity.
As the Young's modulus is a measure of stiffness, an increase in the temperature will typically lead to a decrease in the modulus of elasticity. However it depends on the material.
Physical Data : [top] Density (lb / cu. in.) 0.098 Specific Gravity 2.7 Melting Point (Deg F) 1090 Modulus of Elasticity Tension 10 Modulus of Elasticity Torsion 3.8
it is around 1 GPa or lower.. depending on the type/density
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 bulk modulus of sulfuric acid is approximately 3.15 GPa at room temperature. Bulk modulus is a measure of a substance's resistance to compression under pressure, indicating how much the volume of the substance will change when subjected to pressure.
I meant lower linear density, but I can't change it. So for example for Aluminum the Linear density of [111] is lower than for [110] and that is again lower than [100]. But you notice that the modulus of elasticity is higher for [111] than for [110] and that again is higher than for [100]
Yes, Young's Modulus is the same as Modulus of Elasticity.
Yes, the modulus of elasticity is the same as Young's modulus.
Young's modulus is SI system is GPa (Giga-pascal). A Pa is a pascal with base units of Newtons per meter squared, or kilogram-meter/second squared per meter squared
Did you mean A36 steel? As with most steels, A36 has a density of 7,800 kg/m3 (0.28 lb/cu in). Young's modulus for A36 steel is 200 GPa (29,000,000 psi). A36 steel has a Poisson's ratio of 0.32, and a shear modulus of 78 GPa (11,300,000 psi)
there are different types of modulus it depends on what types of stress is acting on the material if its direct stress then then there is modulus of elasticity,if tis shear stress then its modulus of rigidity and when its volumetric stress it is bulk modulus and so on