In: Statistics and Probability
The Turbine Oil Oxidation Test (TOST) and the Rotating Bomb Oxidation Test (RBOT) are two different procedures for evaluating the oxidation stability of steam turbine oils. An article reported the accompanying observations on x = TOST time (hr) and y = RBOT time (min) for 12 oil specimens.
TOST | 4200 | 3575 | 3750 | 3675 | 4050 | 2770 |
---|---|---|---|---|---|---|
RBOT | 370 | 335 | 375 | 310 | 350 | 200 |
TOST | 4870 | 4525 | 3450 | 2725 | 3750 | 3300 |
---|---|---|---|---|---|---|
RBOT | 400 | 375 | 285 | 230 | 345 | 290 |
(a) Calculate the value of the sample correlation coefficient. (Round your answer to four decimal places.)
r =
Interpret the value of the sample correlation coefficient.
The value of r indicates that there is a strong, positive linear relationship between TOST and RBOT.The value of r indicates that there is a strong, negative linear relationship between TOST and RBOT. The value of r indicates that there is a weak, negative linear relationship between TOST and RBOT.The value of r indicates that there is a weak, positive linear relationship between TOST and RBOT.
(b) How would the value of r be affected if we had let
x = RBOT time and y = TOST time?
The value of r would be multiplied by −1.The value of r would remain the same. The value of r would increase.The value of r would decrease.
(c) How would the value of r be affected if RBOT time were
expressed in hours?
The value of r would decrease.The value of r would remain the same. The value of r would increase.The value of r would be multiplied by −1.
(d) Construct a normal probability plot for TOST time.
Construct a normal probability plot for RBOT time.
Comment.
TOST time appears normal, while RBOT time appears nonnormal.RBOT time appears normal, while TOST time appears nonnormal. Both TOST and RBOT time appear to come from nonnormal population.Both TOST and RBOT time appear to come from normal populations.
(e) Carry out a test of hypotheses to decide whether RBOT Time and
TOST time are linearly related. (Use
α = 0.05.)
State the appropriate null and alternative hypotheses.
H0: ρ = 0
Ha: ρ > 0H0:
ρ = 0
Ha: ρ ≠
0 H0: ρ =
0
Ha: ρ < 0H0:
ρ ≠ 0
Ha: ρ = 0
Calculate the test statistic and determine the P-value.
(Round your test statistic to two decimal places and your
P-value to three decimal places.)
t | = | |
P-value | = |
State the conclusion in the problem context.
Reject H0. The model is not useful.Fail to reject H0. The model is useful. Reject H0. The model is useful.Fail to reject H0. The model is not useful.
Both TOST AND RBOT time appears normal distribution
The values r is multriplied by -1
then the the value of r is same
The values r is multriplied by -1 in that case if RBOT time is increses the LOST time is decreases
.