Answer:
I leave the information so that from what I give you do your flowchart
Photon flow
The photon flow is defined as the number of photons per second per unit area:
* The * flow of photons is important to determine the number of electrons that are converted, and therefore, the current produced by a solar cell. Since the photon flow does not give information about the energy (or wavelength) of the photons, the energy or wavelength of the photons in the light source must be supplied. At a given wavelength, the combination of the photon wavelength or energy and the photon flux at that wavelength can be used to calculate the power density of the photons at that particular wavelength. The power density is calculated by multiplying the photon flow by the energy of a single photon. Since the photon flow gives the number of photons that a surface obtains in a given time, multiplying this by the energy of the photons that make up that flow, the energy that reaches a surface is obtained per unit of time, which is equivalent to a power density To determine the power density in units of W / m², the energy of the photons must be in joules.
Where is the photon flow and q is the value of the electric charge 1.610-19
Answer:
Dihybrid cross: Cp cp W w x Cp cp W w
Gametes= CpW; Cpw; cpW; cpw
Cp Cp: lethal phenotype
Genotypes:
Cp cp W w >> creeper and white phenotype
Cp cp w w >> creeper and yellow phenotype
Cp cp W W >> creeper and white phenotype
cp cp W W >> normal (non-creeper) and white phenotype
cp cp W w >> normal (non-creeper) and white phenotype
cp cp w w >> normal (non-creeper) and yellow phenotype
Since it is a dihybrid cross that involves a lethal allele in homozygous condition (Cp), it is expected a phenotype ratio of 6:3:2:1, it is 6 (Cpcp W_ creeper white) : 3 (cpcp W_ normal white ) : 2 (Cpcp W_ creeper yellow) : 1 (cpcp ww normal yellow). This ratio is expected because it is a distortion from normal segregation proportions (i.e., instead of the 9:3:3:1 phenotypic ratio associated with dihybrid crosses).
<u>Neptune</u> takes the longest amount of time to complete its orbit.
Answer:
Cellular respiration and photosynthesis are important parts of the carbon cycle. The carbon cycle is the pathways through which carbon is recycled in the biosphere. While cellular respiration releases carbon dioxide into the environment, photosynthesis pulls carbon dioxide out of the atmosphere.
Explanation:
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