The volume of water used in the disappearing cross experiment is varied to observe the effects of different concentrations on the rate of the reaction. By changing the volume of water, researchers can test how the reaction rate is affected as the concentration of the reactants changes. This helps in understanding the relationship between concentration and reaction rates.
If you mean what is the right cross sectional area of a cube with a volume of 250 cubic centimeters the answer is 40 cc (really 39.685)
monohybrid cross
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To find the length of a rectangular prism, you need to measure the longest side of the prism. This is usually referred to as the length. It is an essential measurement when calculating the volume or surface area of the prism.
A mono-hybrid cross is a breeding experiment that involves parents that are different in one specific trait or character. For example, crossing plants that are heterozygous for flower color (one parent has red flowers and the other has white flowers) to study inheritance patterns of that specific trait in the offspring.
The disappearing cross experiment involves showing a cross inside a tube of liquid to demonstrate the principles of refraction. When the tube is slowly filled with a liquid that has the same refractive index as the material forming the cross, the cross appears to disappear because the light is not bent at the interface between the two materials. This experiment illustrates how refraction works by manipulating the paths of light rays.
length = volume/cross-section
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Volume = cross sectional area * lengthArea = 2* cross sectional area + perimeter of cross section * length
To find the volume of a prism you first need to know the area of cross section. Then, Volume of prism = area of cross section x length.
Volume = cross-section area*length
Volume = cross-section area*length
The cross section volume of a trapezoid is found between 0 and 2.0.
Just reset to default in settings.
Volume = cross-section area*length
Volume of a parallelogram = cross-section area times length
Volume = cross-section area*length