fou find that statistical uncertainty is your largest measurement uncertainty and that the V value is use a new V instrument and a new DV instrument to collect more measurenents at a wicer va o collect DV data for new iv data points O use a new V instrument but the same DV instrument to collect the same number of measuren o lake more measuremonts for the DV value at the IV data points aiready collected and add more IV dat O use a new D instrument to take more DV measurements for the IVdata points already collec

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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QUESTION 1
You find that statistical uncertainty is your largest measurement uncertainty and that the V value is your largest propagated uncertainty. How can you try to improve both uncertainties in the simplest. but most effective way?
O use a new V instrument and a new DV instrument to collect more measurements at a wicer variety of V data points
O collect DV data for new IV data points
O use a new V instrument but the same DV instrument to collect the same numtber of measurements at a wicer variety of IV data points
o take more measurements for the DV value at the IV data points aiready collected and add more IV data points
O use a new DV instrument to take more DV measurements for the Ivdata points already collected and collect additional DV data for more IV data points not previcusly measured
o start over to collect the same number of DV measurements as before. but al a greater variety of IV data points than before
o take more measurements for the DV values at the IV data points already measured
O use a new IVv instrument but the same DV instrument to collect more DV meas.urements than before at the same IV cata points
QUESTION 2
Does a prediction value of m= 0.258 + 0.602 grams agree well with a mcasurement value of m= 0.775 + 0.202 grams?
O True
O False
QUESTION 3
You find that instrumental uncertainty is your largest measurement uncertainty and that the slope is your largest propagated uncertainty. How can you try to improve both uncertainties in the simplest but most effective way?
o take more measurements tor the DV value at the IV data points aiready collected and add more IV data points
O use a new Iv instrument but the same DV instrument to collect mcre DV measurements than before at the same IV cata points
O start over to collect the same numher af DV meaSurements as before, but at a greater variety of IV data points than before
O use a new IV instrument and a new DV instrument to collect more measurements at a wider variety of V data points
O use a new DV instrument to take the same number of measurements as before at a greater variety of IV data points
o use a new V instrument but the same DV instrument to collect the same number of measurements at a wicer variety at IV data points
O collect the same amount of DV data for new IV data points
o take more mcasurements for the DV values at the IV data points aiready measured
QUESTION 4
Does a prediction value of y = 2.45 0.72 cm agreu well with a measurement value of y = 3.36 t 0.03 cm
O True
O False
QUESTION 5
taking more measurements is always the best way to improve an experiment
O True
O False
QUESTION 6
It is always necessary to completely redo all of your experiment
O True
O False
Transcribed Image Text:QUESTION 1 You find that statistical uncertainty is your largest measurement uncertainty and that the V value is your largest propagated uncertainty. How can you try to improve both uncertainties in the simplest. but most effective way? O use a new V instrument and a new DV instrument to collect more measurements at a wicer variety of V data points O collect DV data for new IV data points O use a new V instrument but the same DV instrument to collect the same numtber of measurements at a wicer variety of IV data points o take more measurements for the DV value at the IV data points aiready collected and add more IV data points O use a new DV instrument to take more DV measurements for the Ivdata points already collected and collect additional DV data for more IV data points not previcusly measured o start over to collect the same number of DV measurements as before. but al a greater variety of IV data points than before o take more measurements for the DV values at the IV data points already measured O use a new IVv instrument but the same DV instrument to collect more DV meas.urements than before at the same IV cata points QUESTION 2 Does a prediction value of m= 0.258 + 0.602 grams agree well with a mcasurement value of m= 0.775 + 0.202 grams? O True O False QUESTION 3 You find that instrumental uncertainty is your largest measurement uncertainty and that the slope is your largest propagated uncertainty. How can you try to improve both uncertainties in the simplest but most effective way? o take more measurements tor the DV value at the IV data points aiready collected and add more IV data points O use a new Iv instrument but the same DV instrument to collect mcre DV measurements than before at the same IV cata points O start over to collect the same numher af DV meaSurements as before, but at a greater variety of IV data points than before O use a new IV instrument and a new DV instrument to collect more measurements at a wider variety of V data points O use a new DV instrument to take the same number of measurements as before at a greater variety of IV data points o use a new V instrument but the same DV instrument to collect the same number of measurements at a wicer variety at IV data points O collect the same amount of DV data for new IV data points o take more mcasurements for the DV values at the IV data points aiready measured QUESTION 4 Does a prediction value of y = 2.45 0.72 cm agreu well with a measurement value of y = 3.36 t 0.03 cm O True O False QUESTION 5 taking more measurements is always the best way to improve an experiment O True O False QUESTION 6 It is always necessary to completely redo all of your experiment O True O False
QUESTION 7
Does a prediction value of m= 6.5 t 1.8 grams agree well with a measurement value of m= 4.9+ 0.6 grams?
O True
O False
QUESTION 8
You find that instrumental uncertainty is your largest measurement uncertainty and that the IV value is your largest propagated uncertainty How can you try to improve both uncertainties in the simplest, but most effective way?
o use a new IV instrument but the same DV instrumert to collect more DV measurements than before at the same IV cata points
o take more measurements tor the DV value at the IV data points already collected and and more IV data points
O collect the same amount of DV data tor new Vdata points
O use a new V instrument and a new DV instrument to collect more measurements at a wider variety of IV data points
O start over to collect the same number at DV measurements as betore, but at a greater variety of IV data pnints than betore
o take more measurements for the DV values at the V data points already measured
o use a new D instrument to take the same number of measurements as before at a greater variety of IV data points
O use a new IV instrument and a new DV instrument to collect the same number of measurements at the same IV data points as before
QUESTION 9
Assuming for a single person an uncertainly of 1 baniaria What value of 'mites jogged per day' would be useful for distinguishing botween the two shown correlation. You can also assume it is not practical to test at values targer than 30 miles
30
20
15
10
5.
10
15
20
25
30
Miles Jogged in a Day
QUESTION 10
A preciction being correct means that the theory that produced it MUST be correct
O True
O False
Transcribed Image Text:QUESTION 7 Does a prediction value of m= 6.5 t 1.8 grams agree well with a measurement value of m= 4.9+ 0.6 grams? O True O False QUESTION 8 You find that instrumental uncertainty is your largest measurement uncertainty and that the IV value is your largest propagated uncertainty How can you try to improve both uncertainties in the simplest, but most effective way? o use a new IV instrument but the same DV instrumert to collect more DV measurements than before at the same IV cata points o take more measurements tor the DV value at the IV data points already collected and and more IV data points O collect the same amount of DV data tor new Vdata points O use a new V instrument and a new DV instrument to collect more measurements at a wider variety of IV data points O start over to collect the same number at DV measurements as betore, but at a greater variety of IV data pnints than betore o take more measurements for the DV values at the V data points already measured o use a new D instrument to take the same number of measurements as before at a greater variety of IV data points O use a new IV instrument and a new DV instrument to collect the same number of measurements at the same IV data points as before QUESTION 9 Assuming for a single person an uncertainly of 1 baniaria What value of 'mites jogged per day' would be useful for distinguishing botween the two shown correlation. You can also assume it is not practical to test at values targer than 30 miles 30 20 15 10 5. 10 15 20 25 30 Miles Jogged in a Day QUESTION 10 A preciction being correct means that the theory that produced it MUST be correct O True O False
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