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What is the relationship between temperature and conductivity?
The relationship between temperature and conductivity is that conductivity generally increases as temperature increases. This is because higher temperatures cause particles in a substance to move more quickly, which allows for better flow of electric current.
What is the relationship between temperature and resistance?
The relationship between temperature and resistance is that as the temperature of a material increases, its resistance also increases. This is because higher temperatures cause the atoms in the material to vibrate more, which disrupts the flow of electrons and increases resistance.
What is the relationship between is spring and a water table?
A spring will flow when the water table is above where the spring exists. If no moisture replentishes the water table, or aquifier, then the spring will discontinue fo flow.
What is the relationship between resistance and temperature in a material?
The relationship between resistance and temperature in a material is that as the temperature of the material increases, the resistance also increases. This is because higher temperatures cause the atoms in the material to vibrate more, which disrupts the flow of electrons and increases resistance.
What relationship exists between the temperature of the oil and its flow rate?
The relationship between oil temperature and flow rate is generally a CONSTANT, ie as the oil temperature increases, the viscosity of the fluid decreases. This would lead to the assumption that flow rates would also increase, but that is not the case. For any given "fixed size pump" in thermodynamic fluids, viscosity of the fluid is irrelevant, be it air or honey or really thick oil! This can be proved with dimensional analysis. What is affected is friction and pumping power to fully utilise the size of pump. In the situation where only a limited pumping power is available, that is the only thing that will directly affect flow rate..
What is the relationship between the viscosity of oils and temperature variations?
The viscosity of oils decreases as temperature increases. This means that as the temperature rises, oils become less thick and flow more easily. Conversely, as the temperature decreases, oils become thicker and flow more slowly.
What is the relationship between temperature and viscosity?
Temperature and viscosity are inversely related - as temperature increases, viscosity decreases. This is because increased temperature causes molecules in a substance to move more freely, resulting in lower resistance to flow and lower viscosity. Conversely, lower temperatures cause molecules to move more sluggishly, increasing resistance to flow and raising viscosity.
Relationship between flow time and viscosity?
The higher the viscosity, the lower the flow rate.
What is the relationship between pressure and flow rate in a system, as described by the pressure vs flow rate equation?
In a system, the relationship between pressure and flow rate is described by the pressure vs flow rate equation. This equation shows that as pressure increases, flow rate decreases, and vice versa. This means that there is an inverse relationship between pressure and flow rate in a system.
What correctly describes the information flow and relationship between acci?
The information flow and relationship between acci is determining if a criminal is made by CID. The accident investigation is preceded.
The relationship between a cathode and an anode involves what?
The relationship between a cathode and an anode involves
Is the relationship between the fluid flow rate and the flow tube radius linear or exponential?
The relationship between fluid flow rate and flow tube radius is typically nonlinear and follows a power law relationship. As the flow tube radius increases, the flow rate also increases, but not in a linear fashion. Instead, the relationship is often modeled using equations involving powers or roots of the tube radius.
