Suppose we have a binomial experiment in which success is defined to be a particular quality or attribute that interests us. (a) Suppose n = 45 and p = 0.26. (For each answer, enter a number. Use 2 decimal places.) n·p = n·q = Can we approximate p̂ by a normal distribution? Why? (Fill in the blank. There are four answer blanks. A blank is represented by _____.) _____, p̂ _____ be approximated by a normal random variable because _____ _____. first blank Yes No second blank can cannot third blank both n·p and n·q exceedn·q does not exceed n·p and n·q do not exceedn·q exceedsn·p does not exceedn·p exceeds fourth blank (Enter an exact number.) = What are the values of μp̂ and σp̂? (For each answer, enter a number. Use 3 decimal places.) μp̂ = σp̂ = (b) Suppose n = 25 and p = 0.15. Can we safely approximate p̂ by a normal distribution? Why or why not? (Fill in the blank. There are four answer blanks. A blank is represented by _____.) _____, p̂ _____ be approximated by a normal random variable because _____ _____. first blank Yes No second blank can cannot third blank both n·p and n·q exceedn·q does not exceed n·p and n·q do not exceed n·q exceedsn·p does not exceed n·p exceeds fourth blank (Enter an exact number.) = (c) Suppose n = 57 and p = 0.24. (For each answer, enter a number. Use 2 decimal places.) n·p = n·q = Can we approximate p̂ by a normal distribution? Why? (Fill in the blank. There are four answer blanks. A blank is represented by _____.) _____, p̂ _____ be approximated by a normal random variable because _____ _____. first blank Yes No second blank can cannot third blank both n·p and n·q exceed n·q does not exceed n·p and n·q do not exceed n·q exceedsn·p does not exceed n·p exceeds fourth blank (Enter an exact number.) What are the values of μp̂ and σp̂? (For each answer, enter a number. Use 3 decimal places.) μp̂ = σp̂ =
Suppose we have a binomial experiment in which success is defined to be a particular quality or attribute that interests us. (a) Suppose n = 45 and p = 0.26. (For each answer, enter a number. Use 2 decimal places.) n·p = n·q = Can we approximate p̂ by a normal distribution? Why? (Fill in the blank. There are four answer blanks. A blank is represented by _____.) _____, p̂ _____ be approximated by a normal random variable because _____ _____. first blank Yes No second blank can cannot third blank both n·p and n·q exceedn·q does not exceed n·p and n·q do not exceedn·q exceedsn·p does not exceedn·p exceeds fourth blank (Enter an exact number.) = What are the values of μp̂ and σp̂? (For each answer, enter a number. Use 3 decimal places.) μp̂ = σp̂ = (b) Suppose n = 25 and p = 0.15. Can we safely approximate p̂ by a normal distribution? Why or why not? (Fill in the blank. There are four answer blanks. A blank is represented by _____.) _____, p̂ _____ be approximated by a normal random variable because _____ _____. first blank Yes No second blank can cannot third blank both n·p and n·q exceedn·q does not exceed n·p and n·q do not exceed n·q exceedsn·p does not exceed n·p exceeds fourth blank (Enter an exact number.) = (c) Suppose n = 57 and p = 0.24. (For each answer, enter a number. Use 2 decimal places.) n·p = n·q = Can we approximate p̂ by a normal distribution? Why? (Fill in the blank. There are four answer blanks. A blank is represented by _____.) _____, p̂ _____ be approximated by a normal random variable because _____ _____. first blank Yes No second blank can cannot third blank both n·p and n·q exceed n·q does not exceed n·p and n·q do not exceed n·q exceedsn·p does not exceed n·p exceeds fourth blank (Enter an exact number.) What are the values of μp̂ and σp̂? (For each answer, enter a number. Use 3 decimal places.) μp̂ = σp̂ =
MATLAB: An Introduction with Applications
6th Edition
ISBN:9781119256830
Author:Amos Gilat
Publisher:Amos Gilat
Chapter1: Starting With Matlab
Section: Chapter Questions
Problem 1P
Related questions
Question
Suppose we have a binomial experiment in which success is defined to be a particular quality or attribute that interests us.
(a)
- Suppose n = 45 and
- p = 0.26.
n·p =
n·q =
Can we approximate p̂ by a
_____, p̂ _____ be approximated by a normal random variable because _____ _____.
first blank
Yes
No
second blank
can
cannot
third blank
both n·p and n·q exceedn·q does not exceed
n·p and n·q do not exceedn·q exceedsn·p
does not exceedn·p exceeds
fourth blank (Enter an exact number.)
=
What are the values of μp̂ and σp̂? (For each answer, enter a number. Use 3 decimal places.)
μp̂ =
σp̂ =
_____, p̂ _____ be approximated by a normal random variable because _____ _____.
first blank
=
What are the values of μp̂ and σp̂? (For each answer, enter a number. Use 3 decimal places.)
μp̂ =
σp̂ =
(b)
Suppose- n = 25 and
- p = 0.15.
_____, p̂ _____ be approximated by a normal random variable because _____ _____.
first blank
Yes
No
second blank
can
cannot
third blank
both n·p and n·q exceedn·q does not exceed
n·p and n·q do not exceed
n·q exceedsn·p does not exceed
n·p exceeds
fourth blank (Enter an exact number.)
=
n·p =
n·q =
Can we approximate p̂ by a normal distribution? Why? (Fill in the blank. There are four answer blanks. A blank is represented by _____.)
_____, p̂ _____ be approximated by a normal random variable because _____ _____.
first blank
(c)
Suppose- n = 57 and
- p = 0.24.
n·p =
n·q =
Can we approximate p̂ by a normal distribution? Why? (Fill in the blank. There are four answer blanks. A blank is represented by _____.)
_____, p̂ _____ be approximated by a normal random variable because _____ _____.
first blank
Yes
No
second blank
can
cannot
third blank
What are the values of μp̂ and σp̂? (For each answer, enter a number. Use 3 decimal places.)
μp̂ =
σp̂ =
both n·p and n·q exceed
n·q does not exceed
n·p and n·q do not exceed
n·q exceedsn·p does not exceed
n·p exceeds
fourth blank (Enter an exact number.)What are the values of μp̂ and σp̂? (For each answer, enter a number. Use 3 decimal places.)
μp̂ =
σp̂ =
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