-- the area of the exposed surface
-- the airflow over the exposed surface
-- the temperature of the liter of water
-- the air pressure at the exposed surface
-- the relative humidity of the air in the room
-- the transparency of the liter container
are all relevant to the rate of evaporation.
hardness, purity,temperature, and pH
The gas pressure increases by a factor of 8. The relevant equation is pV = nRT. Since nothing on the right side of this equation changes, the product on the left side must remain constant. The volume is stated to decrease by a factor of 4/0.5 or 8; therefore the pressure must increase by the same factor.
Yes and no. The shape can affect how efficiently the water is being heated and how efficiently the evaporated water can escape a vessel. An almost completely sealed water container will show very little signs of evaporation because any water that evaporates will soon condense back into the container. The evaporation is still happening, it's just not as observable or relevant because the evaporation cannot leave the system efficiently.
The abstract noun form of the adjective 'relevant' is relevance.
Newton's first Law (The velocity of an object remains constant unless...) does apply to rotating objects, but the fact that an object is rotating is not specially relevant to application of the First Law.
hardness, purity,temperature, and pH
k is the constant of variation and is the gradient (slope) of the relevant graph.
Melting is a phase change, which is entirely controlled by temperature (pressure is also relevant but under normal circumstances, air pressure is approximately constant). Curdling is a chemical change. The process that leads to a particular chemical is much more complicated than a change in temperature.
Because crude oil is a mixture of different chemicals - mainly hydrocarbons - that have different evaporation temperatures. Roughly speaking, when the crude is heated, its temperature rises until it reaches the lowest vaporisation temperature. The temperature then remains more or less steady as the heat input is used as the latent heat of vaporisation for the relevant compound. When [almost] all of that compound has evaporated, the temperature starts rising again until it reaches the next varorisation temperature, and so on.
The fixed points on the Celsius scale, for measuring temperature are based on the freezing and boiling points of water and, to that extent water is relevant to the measurement of temperature.
It is called the y-intercept and is the constant term in the relevant equation.
an increase or decrease on a company's fixed costs is however not only dependent on the relevant period but also on the relevant production range. The total fixed costs will remain constant if the relevant production range can be handled by the same number of production units, producing fewer steps. If a certain step ( certain cost level) encompasses the entire relevant range of activity, the costs are entirely fixed.
The ambient temperature in this case refers to the temperature outside the engine. This is relevant for calculations related to heat engine. The ambient temperature will of course vary, but it is usually somewhere around 300 K.
true
true A 'constant' is a quantity that is fixed, relevant to whatever subject is being discussed. An example is the speed of light 'c' (186,200miles/sec.). What is still 'at large' is what it is constant 'with respect to' apart from both a dielectric medium (c/n), and 'all receivers', which is what is apparently found by all receivers in checking its frequency. Checking it's wavelength after interaction with a lens instead seems to provide a paradox free solution, but not yet resolvable with respect to current theory. There are many 'constants'
Constant Contact is an email service that allows a person or business/group to email multitudes of patrons/customers with information that they deem relevant. It can be used for work such as event announcements, newsletters, or even simple reminders.
The gas pressure increases by a factor of 8. The relevant equation is pV = nRT. Since nothing on the right side of this equation changes, the product on the left side must remain constant. The volume is stated to decrease by a factor of 4/0.5 or 8; therefore the pressure must increase by the same factor.