(06.07) Given the function f(x) = x3 + x2 − 2x + 1, what is the resulting function when f(x) is shifted to the left 1 unit? (2 points) a f(x − 1) = x3 − 2x2 − x + 3 b f(x + 1) = x3 + 4x2 + 3x + 1 c f(x) − 1 = x3 + x2 − 2x d f(x) + 1 = x3 + x2 − 2x + 2
54
step-by-step explanation:
6x9
she will most likely have 33
step-by-step explanation:
change of stock price/initial stock price on friday * total stock value = change of stock value
0.89/73.73 *x = 42.72
x=3539.04 = total stock value at initial stock price on friday .
total stock value at initial stock price on friday/ initial stock price on friday = number of shares
3539.04/73.73 = 48 shares
they own 48 shares of this stock
hello!
to begin with, we're given that on earth, a rock weighs 20 pounds, and while on jupiter, that same rock weighs 42 pounds. now, we're trying to find the weight of a rock that weighs 10.5 pounds on earth, on jupiter.
to solve this, first, set up a proportion, cross-multiply, and solve it algebraically.
setting up the proportion is the hardest and the most confusing part of the problem, but it's simple.
if on earth, the rock weighs 20 lbs, and on jupiter it weighs 42 lbs, our first part of our proportion is 20/42 lbs. the second part has to be equal to each other. this means that 10.5 has to be on the numerator of the fraction, and x, the value we're trying to find, has to be on the denominator. remember that the rock weighs 10.5 lbs on earth, and we're trying to find the weight of it on jupiter (which is x).
20/42 = 10.5/x
next, you would cross-multiply.
20x = 42(10.5)
20x = 441
now, solve it algebraically by using division.
x = 22.05 lbs
this can be rounded to 22.1 lbs.
therefore, the weight of the rock on jupiter is 22.1 lbs, the fourth choice.