An environmental engineer is tasked with determining whether a power plant cooling system is heating the water it uses more than allowed by environmental regulations. They measure water temperatures at - QAmmunity.org

An environmental engineer is tasked with determining whether a power plant cooling system is heating the water it uses more than allowed by environmental regulations. They measure water temperatures at

asked Dec 9, 2021 74.7k views

An environmental engineer is tasked with determining whether a power plant cooling system is heating the water it uses more than allowed by environmental regulations. They measure water temperatures at the cooling system input and the cooling system output for several different days in several different seasons.A data file containing these measurements is HW_PTA 243.csv.Do a statistical analysis on this data to determine if the temperature change between the input and output of the cooling system is different than 6 degrees. What does your analysis indicate?

A) The cooling system changes the temperature of the water by an amount different than 6 degrees.
B) The cooling system changes the temperature of the water by 6 degrees.

Chris Loughnane asked

by Chris Loughnane

4.7k points

1 Answer

Complete Question

The complete question is shown on the first , second and third uploaded image

Answer:

A

The correct option is A

B

The correct option is H

Explanation:

The null hypothesis is
$H_o  :  \mu_1 - \mu_2 =  6$

The alternative hypothesis is
$H_a  :  \mu_1 - \mu_2 \\e  6$

The population mean difference is
$\mu_d  =  6$

Generally the sample size is n = 15

Generally the sample mean for input temperature is mathematically represented as

$\= x _1  = (\sum x_i )/(n)$

=>
$\= x _1  = (57.6 + 68.9 + \cdots +60.4  )/(15)$

=>
$\= x _1  = 62.57$

Generally the sample mean for output temperature is mathematically represented as

$\= x _2  = (\sum x_i )/(n)$

=>
$\= x _2  = (65.1+ 74.4 + \cdots +67.3 )/(15)$

=>
$\= x _2  = 55.97$

Generally the sample mean difference is mathematically represented as

$\= d = 62.57 - 55.97$

=>
d = 6.6

Generally the standard deviation is mathematically represented as

$s_d  =  \sqrt{( \sum [d_1 - \= d]^2)/(n-1) }$

=>
$s_d  =  \sqrt{( [ [57.6 -65.1]- 6.6]^2 +[68.9 -74.4]- 6.6]^2+\cdots +   [60.4 -67.3]- 6.6]^2)/(15-1) }$

=>
s_d = 1.732

Generally the test statistics is mathematically represented as

t = (6.6 - 6 )/((1.732)/(√(15) ) )

=>
t = 1.342

Generally the degree of freedom is mathematically represented as

df = n - 1

So

df = 15 - 2

=>
df = 14

Generally the p-value is mathematically represented as

p-value = 2 * P(t > 1.342 )

Generally from the t -distribution table the probability of 1.342 at a degree of freedom of
df = 28 is

P(t > 1.342 ) = 0.10047

So

p-value = 2 * 0.10047

=>
p-value = 0.201

Generally from the value obtained we see that
$p-value  > \alpha$ Hence

The decision rule is

Fail to reject the null hypothesis

The conclusion is

The cooling system changes the temperature of the water by 6 degrees

An environmental engineer is tasked with determining whether a power plant cooling-example-1

An environmental engineer is tasked with determining whether a power plant cooling-example-2

An environmental engineer is tasked with determining whether a power plant cooling-example-3

Mousavian answered Dec 16, 2021

5.0k points

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