The answer would be ("A genotype of both parents") Welcome! Have a great day and hopes this helps :p
Since squash plants do not self-pollinate, they cannot produce a true-breeding generation (known as the P generation in Mendel's experiment). Thus, there will be two consequences: 1. Obtaining a pure-breeding squash plant will be hard or nearly impossible. 2. Recessive traits will show up earlier in the generations. For example, in Mendel's pea-plant experiment, recessive traits reappeared in the F2 (second filial) generation. In this case, recessive traits could appear in the F1 (first filial) or P (parental) generation... or even earlier.
The original generation for pea plants in Mendel's experiment is called the P generation, or parental generation. This generation consisted of the true-breeding plants that Mendel used to establish the traits he studied. The P generation was crossed to produce the F1 generation, which exhibited the traits inherited from the P generation.
Percentage error in p is calculated by taking the absolute difference between the measured value and the true value, dividing by the true value, and then multiplying by 100 to get the percentage. The formula is |(measured value - true value) / true value| * 100.
Your question doesn't make sence (grammar wise) maybe try... What is a eucalyptus plant?? :P
Mendel used true breeding plants in the P generation to establish a consistent genetic background for his experiments. True breeding plants produce offspring with the same traits when self-fertilized, allowing Mendel to control the genetic makeup of the parent generation and achieve predictable results in his crosses.
Patrick Breeding goes by P-Rick from the Southside, P-fizzle, P-Rick, and P.O.B.
Assuming that you mean not (p or q) if and only if P ~(PVQ)--> P so now construct a truth table, (just place it vertical since i cannot place it vertical through here.) P True True False False Q True False True False (PVQ) True True True False ~(PVQ) False False False True ~(PVQ)-->P True True True False if it's ~(P^Q) -->P then it's, P True True False False Q True False True False (P^Q) True False False False ~(P^Q) False True True True ~(P^Q)-->P True True False False
The answer would be ("A genotype of both parents") Welcome! Have a great day and hopes this helps :p
He got purple flowers, because purple is dominant over white, and a plant with the combination of purple and white will be purple. P being the purple gene, p being the white, Pp will be purple, just like PP. Only pp will be white.
Not sure I can do a table here but: P True, Q True then P -> Q True P True, Q False then P -> Q False P False, Q True then P -> Q True P False, Q False then P -> Q True It is the same as not(P) OR Q
Plumb.. TRUE GOLD
Since squash plants do not self-pollinate, they cannot produce a true-breeding generation (known as the P generation in Mendel's experiment). Thus, there will be two consequences: 1. Obtaining a pure-breeding squash plant will be hard or nearly impossible. 2. Recessive traits will show up earlier in the generations. For example, in Mendel's pea-plant experiment, recessive traits reappeared in the F2 (second filial) generation. In this case, recessive traits could appear in the F1 (first filial) or P (parental) generation... or even earlier.
If p is true and q is false, p or q would be true. I had a hard time with this too but truth tables help. When using P V Q aka p or q, all you need is for one of the answers to be true. Since p is true P V Q would also be true:)
true or false = true
Making a truth table is actually very simple.For the statement P, it can either be true, or false.P--TFNOT P, or -p (or ~p) is the opposite. If P is true, then not P is... false!The same holds true for if P is false, what is not P? True!The truth table for ~p looks like thisP | ~p--------T | FF | T
chloroplast are the structures use for photosynthesis chloroplast are organelles found in plant, :P im not sure when its true