The factors that determine the viscosity of a fluid, when viscosity is not affected by temperature, include the size and shape of the molecules in the fluid, the presence of any impurities or additives, and the pressure under which the fluid is being measured.
The temperature after 5.5 minutes would depend on the initial temperature and any influencing factors like the environment or heat source. To determine the new temperature, you would need to consider the rate of change of temperature over time or any specific equations or data related to the system in question.
Fluid friction depends on factors such as the velocity of the fluid, the viscosity of the fluid, and the size and shape of the object moving through the fluid. These factors influence the amount of resistance encountered by the object as it moves through the fluid.
Thermal energy depends on the temperature of the object or substance, its mass, and the specific heat capacity of the material. These factors determine the amount of heat energy that can be stored or transferred within the system.
Electrical energy depends on factors such as the voltage of the system, the current flowing through the system, and the time for which the system is consuming power. These factors combine to determine the overall amount of electrical energy used by a device or system.
The force of gravity depends on the masses of the two objects involved and the distance between them. These factors determine the strength of the gravitational force between the objects.
The viscosity of a 60% sugar and 40% water solution will depend on factors such as temperature and sugar concentration. Generally, increasing the sugar content will increase the viscosity due to the additional dissolved solids in the solution. It is recommended to use viscosity measurements to determine the exact viscosity of a specific solution.
The viscosity significantly depend on the temperature. So it will be a decreasing curve rather than point. You have to look into the temperature--viscosity curve so that you can find the point you are interested in
Liquid's viscocity depends on temperature. As a rule, viscosity drops with the increase of temperature.
The properties of the three types of magma depend with viscosity, density and temperature. This is usually determine by heat and how far the molten rock are far from the surface of the earth.
The most important factors are temperature and pressure.
That would depend on a variety of factors: The amount of dry ice you have, its exact shape, the external temperature, whether there is wind, and how much.That would depend on a variety of factors: The amount of dry ice you have, its exact shape, the external temperature, whether there is wind, and how much.That would depend on a variety of factors: The amount of dry ice you have, its exact shape, the external temperature, whether there is wind, and how much.That would depend on a variety of factors: The amount of dry ice you have, its exact shape, the external temperature, whether there is wind, and how much.
1600
The best ATF oil for a Nissan Sunny is 15W50. However, it will depend on the viscosity of the vehicle in order to determine what type of oil is best.
The temperature after 5.5 minutes would depend on the initial temperature and any influencing factors like the environment or heat source. To determine the new temperature, you would need to consider the rate of change of temperature over time or any specific equations or data related to the system in question.
The viscosity of a dilute dispersion of silica particles in water would depend on factors such as the particle size, concentration, and surface chemistry of the silica particles. In general, the addition of solid particles to a liquid can increase viscosity due to the particles disrupting the flow of the liquid. The viscosity can be measured experimentally using viscometers.
The tiny fraction of an ounce that constitutes the volume of a droplet would depend on the size of the droplet. The size of the droplet would depend on the viscosity of the fluid, which is subject to change with increase or decrease in temperature.
three factors are 1) volume 2) temperature 3) upon the depth of the fluid