For generator voltage, the distance from the median to the minimum is greater than the distance from the median to the maximum. Thus, the distribution of generator voltage is negatively skewed.
For home voltage, the median is almost equidistant from the minimum and the maximum, thus the distribution of home voltage is symmetric.
The maximum of home voltage is less than the minimum of generator voltage. Thus, all values of generator voltage are greater than all values of home voltage.
All 5 number summaries, (1) minimum, (2) maximum, (3) median (second quartile), (4) first quartile, and (5) third quartile of generator voltage are greater than the home voltage.
The inter-quartile (length of the box) of generator voltage is greater than the home voltage.
-How does the distribution of home voltage compare to the distribution of generator voltage? -How do...
Scott, living in Alabama, took voltage measurements on random days from the generator attached to him home, as well as the electricity directly coming into him home. Scott then arranged that data into a boxplot, as displayed here: 1. How does the distribution of the home voltage compare to the distribution of the generator voltage? 2. How do the 5-number summaries compare to one another? 3. If you were the homeowner, what would be the most important observation you could...
Voltage Measurements From a Home Home Home Home VO Home Full Day_(volts)_Day_(volts) Day_(volts) Day_(volts) data 1 126.9 8 126.8 15 127.2 22 127.5 set 2 126.6 9 126.6 16 127.3 23 1274 3 127.0 10 127.3 17 126.9 24 126.8 4 127.2 11 127. 18 26.8 25 127.0 5 127.4 12 127.5 19 126.7 6 126.7 13 127.0 20 1274 7 126.6 14 126.9 21 127.2 Refer to the accompanying data set and use the 25 home voltage measurements to...
Refer to the accompanying data set and use the 25 home voltage measurements to construct a frequency distribution with five classes. Begin with a lower class limit of 124.7 volts, and use a class width of 0.2 volt. Does the result appear to have a normaldistribution? Why or why not? Complete the frequency distribution below. Voltage (volts) Frequency 124.7− − − − − Voltages measurements from a home Day Home (volts) 1 125.0 2 125.3 3 125.1 4 125.4 5 ...
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How do we control the induced voltage of a shunt generator? Draw the equivalent circuit to explain.
How do we control the induced voltage of a shunt generator? Draw the equivalent circuit to explain.
.2.21 Refer i Question Help to the accompanying data set and use the 25 home voltage measurements to construct a frequency distribution with five classes. Begin with a lower class limit of Click the icon to view the data Voltage (volts) Freq 127.7 volts, and use a class width of 0.2 volt. Does the result appear to have a normal distribution? Why or why not? Complete the frequency distribution below 127.7- (Type integers or decimals rounded to the nearest tenth...
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PG&E states that it has a target power supply of 120 volts. Use the home voltage supply amounts in the Voltage data file to test the claim that the mean is 120 volts. Create a histogram of the home voltage data. Copy and paste your histogram here. Does our assumption of normality appear to be satisfied? Yes No What is your null and alternative? H0: µ = 120, H1: µ ≠ 120 H0: µ ≠ 120, H1: µ = 120...
Refer to the accompanying data set and use the 25 home voltage measurements to construct a frequency distribution with five classes. Begin with a lower class limit of 126.0 volts, and use a class width of 0.2 volt. Does the result appear to have a normal distribution? Why or why not? Day Home (volts) 1 126.2 2 126.6 3 126.5 4 126.6 5 126.6 6 126.0 7 126.5 8 126.3 9 126.5 10 126.6 11 126.5 12 126.1 13 126.5...