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Description: A researcher is evaluating the influence of a treatment using a sample selected from a normally distributed population with a mean of u= 40 and a standard deviation of σ= 12. The researcher expects a 6-point treatment effect and plans to use a two-ta

MATLAB: An Introduction with Applications

6th Edition

ISBN: 9781119256830

Author: Amos Gilat

Publisher: John Wiley & Sons Inc

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Topic Video

Question

A researcher is evaluating the influence of a treatment using a sample selected from a normally distributed population with a mean of u= 40 and a standard deviation of σ= 12. The researcher expects a 6-point treatment effect and plans to use a two-tailed hypothesis test with α= .05. A. Compute the power of the test if the researcher uses a sample of n=9 individuals (see example 8.6) B. Compute the power of the test if the researcher uses a sample of n=16 individuals

Hon Uf power TOr å specific research situation.
We start with a normal shaped population with a mean of µ = 80 and a standard deviation
of o = 10. A researcher plans to select a sample of n = 25 individuals from this population
and administer a treatment to each individual. It is expected that the treatment will have an
8-point effect; that is, the treatment will add 8 points to each individual's score.
The top half of Figure 8.10 shows the original population and two possible outcomes:
EXAMPLE 8.6
1. If the null hypothesis is true and there is no treatment effect.
2. If the researcher's expectation is correct and there is an 8-point effect.
The left-hand side of the figure shows what should happen according to the null hypoth-
esis. In this case, the treatment has no effect and the population mean is still pu = 80. On the
right-hand side of the figure we show what would happen if the treatment has an 8-point
effect. If the treatment adds 8 points to each person's score, the population mean after treat-
ment will increase to u = 88.
The bottom half of Figure 8.10 shows the distribution of sample means for n = 25 for
each of the two outcomes. According to the null hypothesis, the sample means are centered
at u =
80 (bottom left). With an 8-point treatment effect, the sample means are centered at
u = 88 (bottom right). Both distributions have a standard error of
10
10
= 2
σ
Vn
V25
Notice that the distribution on the left shows all of the possible sample means if the null
hypothesis is true. This is the distribution we use to locate the critical region for the hypothesis

hypothesis (the POWC t
the test) is nearly 100%
for an 8-point treatment
effect.
+1.96
-1.96
e cric
these
is close to 100% if there is an 8-point treatment effect.
To calculate the exact value for the power of the test we must determine why
the distribution on the right-hand side is shaded. Thus, we must locate the exac
for the critical region, then find the probability value in the unit normal table. Forte
bution on the left-hand side, the critical boundary of z = +1.96 corresponds toal
that is above the mean by 1.96 standard deviations. This distance is equal to
1.960 M
= 1.96(2)
3.92 points
Thus, the critical boundary of z = +1.96 corresponds to a sample mean of M
3.92 = 83.92. Any sample mean greater than M = 83.92 is in the critical region

Definition Definition Measure of central tendency that is the average of a given data set. The mean value is evaluated as the quotient of the sum of all observations by the sample size. The mean, in contrast to a median, is affected by extreme values. Very large or very small values can distract the mean from the center of the data. Arithmetic mean: The most common type of mean is the arithmetic mean. It is evaluated using the formula: μ = 1 N ∑ i = 1 N x i Other types of means are the geometric mean, logarithmic mean, and harmonic mean. Geometric mean: The nth root of the product of n observations from a data set is defined as the geometric mean of the set: G = x 1 x 2 ... x n n Logarithmic mean: The difference of the natural logarithms of the two numbers, divided by the difference between the numbers is the logarithmic mean of the two numbers. The logarithmic mean is used particularly in heat transfer and mass transfer. ln x 2 − ln x 1 x 2 − x 1 Harmonic mean: The inverse of the arithmetic mean of the inverses of all the numbers in a data set is the harmonic mean of the data. 1 1 x 1 + 1 x 2 + ...

Expert Solution

Step 1

Given:

$μ = 40 σ = 12 α = 0.05$