Not sure about where did you collect the seeds.
But all of the F1 should be tall because the tall plants are dominant originally
F2 will have 3/4 to be tall, assuming this genetic case is determined by only one factor, like Aa
Photosynthesis: carbon dioxide enters plants, biotic parts of the biosphere, andin return oxygen is released.
The correct answer for this question is ion concentration gradient.
The membrane potential at which an ionic species is at equilibrium, that is, when there is no net movement of the ion across the membrane, is known as the Nernst potential for that specific ionic species. The equilibrium potential (Ve-.) for an ion is hence the Nernst potential for that ion.
Na+ and K+ have equilibrium potentials of +60 mV and -88 mV, respectively, in mammalian neurons. The Nernst equation, where R = gas constant, can be used to determine the reversal potential for a given ion.
The membrane potential that precisely balances the concentration gradient of an ion across the membrane is known as equilibrium potential.
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Cilia
mitochondria
flagella
lysosomes
