HP 50g Graphing Calculator User Manual

Page 18-49

The following table shows how to select the numerator and denominator for F

o

depending on the alternative hypothesis chosen:
____________________________________________________________________
Alternative

Test

Degrees

hypothesis

statistic of

freedom

____________________________________________________________________
H

1

:

σ

1

2

<

σ

2

2

(one-sided)

F

o

= s

2

2

/s

1

2

ν

N

= n

2

-1,

ν

D

= n

1

-1

H

1

:

σ

1

2

>

σ

2

2

(one-sided)

F

o

= s

1

2

/s

2

2

ν

N

= n

1

-1,

ν

D

= n

2

-1

H

1

:

σ

1

2

≠σ

2

2

(two-sided)

F

o

= s

M

2

/s

m

2

ν

N

= n

M

-1,

ν

D

= n

m

-1

s

M

2

=max(s

1

2

,s

2

2

), s

m

2

=min(s

1

2

,s

2

2

)

___________________________________________________________________
(*) n

M

is the value of n corresponding to the s

M

, and n

m

is the value of n

corresponding to s

m

.

____________________________________________________________________

The P-value is calculated, in all cases, as: P-value = P(F>F

o

) = UTPF(

ν

N

,

ν

D

,F

o

)

The test criteria are:

Θ Reject H

o

if P-value <

α

Θ Do not reject H

o

if P-value >

α.

Example1 -- Consider two samples drawn from normal populations such that n

1

= 21, n

2

= 31, s

1

2

= 0.36, and s

2

2

= 0.25. We test the null hypothesis, H

o

:

σ

1

2

=

σ

2

2

, at a significance level

α = 0.05, against the alternative hypothesis,

H

1

:

σ

1

2

≠ σ

2

2

. For a two-sided hypothesis, we need to identify s

M

and s

m

, as

follows:

s

M

2

=max(s

1

2

,s

2

2

) = max(0.36,0.25) = 0.36 = s

1

2

s

m

2

=min(s

1

2

,s

2

2

) = min (0.36,0.25) = 0.25 = s

2

2

Also,

n

M

= n

1

= 21,

n

m

= n

2

= 31,

ν

N

= n

M

- 1= 21-1=20,

ν

D

= n

m

-1 = 31-1 =30.