The higher the viscosity, the lower the flow rate.
INFER HOW FLOW RATE AND TEMPERATURE RALATED? and HOW VISCOSITY AND temperature related?
the more viscus the liquid( higher viscosity), the more time it takes to flow through a hole, given the same pressure difference.
Time is almost always the independent variable, which is to say that time depends on nothing. Such is the case with viscosity measurments. The volume that flows through a hole over a period of time means that volume is dependent on time. Plot time on the X axis and Volume on the Y.
Time period = 1 / frequency. Frequency = 1 / time period.
Yes, but keep in mind there are many type of honey, and many ways of processing the honey. I will assume we are talking about natural honey, Liquid and unpasteurized... this is still a wide range of honeys as the properties of the honey are different by location and what flowers the nectar was gathered from. (not to mention the species of bees). so in short i'd say: yes honey has a high viscosity at room temperature. afterthought: "high viscosity" is a very broad term as well...
because
it is a positive relationship
When a liquid is heated, it will generally become less viscous.
viscosity is tested through by heating the liquid to constain temperature and there by making a flow and the time taken from one level to another level. the time to compare with time taken by liquid to flow from one level to another level with out heating and calculating the viscosity index at two points.
Flow of a fluid is measured by its viscosity. Units of measure may be in unit volume per unit of time
yes,if known factor value of capillary flow time.
"Most of the time when viscosity is explained words are used that are too technical for the average person to quickly grasp. This leaves them still wondering what the viscosity numbers really mean on a bottle of motor oil. Simply put, viscosity is the oil's resistance to flow or, for the layman, an oil's speed of flow as measured through a device known as a viscometer. The thicker (higher viscosity) of an oil, the slower it will flow. You will see oil viscosity measurement in lube articles stated in kinematic (kv) and absolute (cSt) terms. These are translated into the easier to understand SAE viscosity numbers you see on an oil bottle."
Relative Viscosity often refers to that of a Polymer Solution and is defined as the ratio of the viscosity of the solution to the pure solvent. It is calculated experimentally by measuring the time that it takes for the pure solvent to pass through a certain tube, in certain conditions , and comparing it with the time it takes for the solution to pass through the same tube, in the same condition. The term Apparent Viscosity is used when you calculate the viscosity of a non-Newtonian fluid by applying equations that are derived for the viscosity of a Newtonian fluid. So it is not the actual viscosity. I hope this answers your question.
At Standard Temperature and Pressure, Copper is a solid metal.
Viscosity refers to how thick or thin the oil is and its rating is the length of time it takes to flow out of a hole. An oil is rated for viscosity by heating it to a specific temperature and the allowing it to flow out of a specifically sized hole. If it flows quickly it gets a low rating. If it flows slowly it gets a high rating
Material that forms magma contains a lot of dissolved gas. When this dissolved gas expands it forms small gas bubbles called vesicles. The more gas bubbles contained in the magma, the more violent the eruption. In magmas with a higher temperate gases remain dissolved, lowering its viscosity. A higher temperature also means a lower density - lava will be runny (less viscous). When temperatures are lower crystallisation occurs, forming a more solid magma with a much higher viscosity. In viscous magmas the gases have a more difficult time escaping, causing a more violent eruption.
What type of relationship exists between time and wind speed?
Answer
The relationship between the shortwave radiation and the time of the day is that both depend with the latitude.