You can only do so if the coordinate pair is other than the x intercept. Suppose the x intercept is A = (a, 0) and suppose the coordinate pair is R = (s, t) Then gradient = (t-0)/(s-a) = t/(s-a) Suppose P = (x, y) are the coordinates of any point on the line. Then gradient of PA = (y-0)/(x-a) = y/(x-a) The two gradients must be the same so t/(s-a) = y/(x-a) or y*(s-a) = t*(x-a) or y = t/(s-a)*x - ta/(s-a) which is of the form y = mx + c with m = t/(s-a) and c = -ta(/(s-a)
O t t o
Their names are Kailey,Kalani,Arielle,and Alyssa ( i don`t know how to spell their names but that`s their names).
Thomas/Tomas
k*S + (1-k)*T where k is any number between 0 and 1.
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Usually the first of the two numbers that comprise the ordered pair. However, in the case of a displacement-time graph, the first is usually the t-coordinate (time) and the x-coordinate is the second (displacement).
A point mutation is when 1 base pair is swapped out for another one... so instead of an A you might find a C... or T... or G. Also an insertion or deletion of a base pair A mutation of a single point :)
PLEASE ANSWER! :)
A, T, C, G. Which stand for Adenine, Thymine, Cytosine, and Guanine respectively. They will alway pair up with each other in the way I have ordered them: A always binds with T and C always binds with G.
A,C,T,G "A" and "T" always pair "C", "G" always pair
Adenine can only bond to thyamine and cynanine can only bond to guamine (A to T, C to G).
Adenine
9.80
T-A-C-G-A-T
It is an ordered pair of the form (A, n) where A is the outcome of the tossed coin (H or T) and n is the outcome of the rolled die (1, 2, 3, 4, 5, 6).
T-macs