Vertical asymptotes appear at any n*pi with n as some integer
in your case x=-1*pi (the others are fractions not integers), so the first option
Answer:
5 ; 0.728 ; 0.00002
Step-by-step explanation:
According to the Central limit theorem, for a normal distribution, the population mean equals the sample mean., Hence the population mean, μ = sample mean = 5
The standard deviation of sampling distribution :
Standard deviation / sqrt(n)
σ / sqrt(n)
σ = 3 ; n = 17
3 / sqrt(17)
3 / 4.1231056
= 0.7276
= 0.728
3.)
P(x < 2) :
Using :
Z = (x - mean) ÷ s/sqrt(n)
P(x < 2) = (2 - 5) ÷ 3/sqrt(17)
P(x < 2) = -3 / 0.7276068
P(x < 2) = - 4.1231060
Z < - 4.123 = 0.00002 (Z probability calculator).
300,000 because the 5 in the ten thousands place is 5 or more (5) so you add 1 to the number before it (3)
5v+8=93
Subtract 8 from both sides.
5v=85
Divide both sides by 5.
v=17
Answer:
2 1/3 - -3 1/4 = 2 1/3 + 3 1/4 = 5 7/12
-1.25*-3 1/4 = 4.0625
Step-by-step explanation:
The greatest difference will be two numbers which subtracted give the largest value.
2 1/3 - -3 1/4 = 2 1/3 + 3 1/4 = 5 7/12
This is the greatest value because it is the greatest number and the least number.
The greatest product will be -1.25 and -3 1/4 since both numbers are negative they give a positive solution.
-1.25*-3 1/4 = 4.0625