Post on 01-Mar-2018
The t- test (uji-t)Uji beda Mean dua sampel kelompok I dan II
require 2 samples which may be from the same
population.(berpasangan)
These samples need not be of equal #, nor are
they paired.(tidak berpasangan)
H0: The 2 samples are from the same population (anydifferences are due to chance)
H1: The 2 samples come from different populations.
CATATAN : RISET GUNAKAN STATISTIK SEDERHANA (S1) Sesuai TUJUAN
RISET YANG HEBAT BUKAN STATISTIKNYA_ Tetapi SUBSTANSINYA
BUATLAH PEMASALAHAN PENELITIAN, TUJUAN , CARI DATA,
ANALISIS, INTREPETASI, KESIMPULAN
• Menguji perbedaan rata-rata/mean :antara klmpk.Idan ke II
• Perlu diperhatikan : dua kelompok yang independen(tak berpasangan) atau dua kelompok yangdependen (berpasangan)
• A. Data independen : bila data kelompok yang satu tidaktergantung dari data kelompok kedua,
misal: 1.membandingkan mean tekanan darah sistolik orangdesa dengan orang kota.
2.Produksi susu pada ketinggian tempat beda• B. Data dependen/pasangan : bila kelompok data yang
dibandingkan datanya saling mempunyai ketergantungan,misal : 1.Data BB sebelum dan sesudah mengikuti program diet
2.Kualitas daging kaki kanan-kaki kiri
CIRI- CIRI T TEST _ CONTOH:
4
T-Test : Perbandingan dua nilai tengah (mean)
• Goal: to compare the mean of a numerical variable for different groups.
• Tests one categorical vs. one numerical variable
Example: gender (M, F) vs. height
Perbandingan :
• Data from the two groups are paired
• There is a one-to-one correspondence between the individuals in the two groups
Paired designs (berpasangan)
Uji t dependen(Paired Sampels T-Test)
• Untuk menguji perbedaan mean antara dua kelompokdata yang dependen.
• Uji ini banyak digunakan untuk penelitian eksperimen.
Syarat/asumsi yang harus dipenuhi :
• Data berdistribusi normal/simetris
• Kedua kelompok data dependen
• Variabel yang dihubungkan berbentuk numerik untuk variabel dependen dan kategorik dengan hanya dua kelompok untuk variabel independen
Paired designs (Berpasangan)
• Each member of the pair shares much in common with the other, except for the tested categorical variable
• Example: identical twins raised in different environments
• Can use the same individual at different points in time
• Example sederhana: before, after medical treatment
• We have many pairs
• In each pair, there is one member that has one treatment and another who has another treatment
• “Treatment” can mean “group”
Paired comparisons - setup
• To compare two groups, we use the mean of the difference between the two members of each pair
STUDENT’S T TEST
•The student’s t test is used to see if to sets of data differ significantly.
•The method assumes that the results follow the normal distribution (also called student's t-distribution) if the null hypothesis is true.
•This null hypothesis will usually stipulate that there is no significant difference between the means of the two data sets.
•It is best used to try and determine whether there is a difference between two independent sample groups. For the test to be applicable, the sample groups must be completely independent, and it is best used when the sample size is too small to use more advanced methods.
•Before using this type of test it is essential to plot the sample data from he two samples and make sure that it has a reasonably normal distribution, or the student’s t test will not be suitable.
• It is also desirable to randomly assign samples to the groups, wherever possible.
Sample
Null hypothesis
The population mean
is equal to o
One-sample t-test
Test statistic
t=Y − o
s /n
Null distribution t with n-1 dfcompare
How unusual is this test statistic?
P < 0.05 P > 0.05
Reject Ho Fail to reject Ho
The Use of the Null Hypothesis• Is the difference in two sample populations due to chance or a
real statistical difference?
• The null hypothesis assumes that there will be no “difference” or no “change” or no “effect” of the experimental treatment.
• If treatment A is no better than treatment B then the null hypothesis is supported.
• If there is a significant difference between A and B then the null hypothesis is rejected...
• Test statistic > critical value
• P < alpha
• Reject the null hypothesis
• Statistically significant
21
21
2
21
22
2
11
21
2
)1()1(
nn
nn
nn
snsn
XXt
Two Sample Difference of Means T-Test
2
21
22
2
11
2
)1()1(
nn
snsnSp2 =Pooled variance of the two groups
21
21
nn
nn= common standard deviation of two groups
The nominator of the equation captures difference in
means,
while the denominator captures the variation within
and between each group
Contoh
• Test on verbal test scores by gender:
Females: mean = 50.9, variance = 47.553, n=6
Males: mean =41.5, variance = 49.544, n=10
)10(6
106
2106
544.49)110(553.47)16(
5.419.50t
)26667(.826.48
4.9t
02.13
4.9t 605.2
608.3
4.9t
Now what do we do with this obtained value?
Steps of Testing and Significance
1. Statement of null hypothesis: sesuai tujuan
2. Set Alpha Level of Risk: .10, .05, .01 ( 10 %, 5 %, 1 %) kepercayaan
3. Selection of appropriate test statistic: T-test. Lakukan perhitungan t test
4. Computation of statistical value: nilai t-test hitung.
5. Compare obtained value to critical value: bandingkan t hitung vs t tabel
Catatan:
6. Comparison of the obtained and critical values.
7. If obtained value is more extreme than critical value, you may reject the null hypothesis. In other words, you have significant results.
8. If point seven above is not true, obtained is lower than critical, then
null is not rejected.
T table of values (5% = 0.05)
For example:For 10 degrees of freedom (2N-2)The chart value to compare your t value to is 2.228
If your calculated t value is between +2.228 and -2.228Then accept the null hypothesis the mean are similar
If your t value falls outside +2.228 and -2.228 (larger than 2.228 or smaller than -2.228)Fail to reject the null hypothesis (accept the alternative hypothesis) there is a significant difference.
CARA HITUNG I:
CARA HITUNG II:
CONTOH:
Rumus uji t
d
T = -------------------
Sd_d / ndf = n - 1
d = rata-rata deviasi/selisih nilai sesudah dengan sebelum
SD_d = standar deviasi dari nilai d/selisih sampel 1 dan sampel 2
Contoh : Seorang peneliti ingin mengetahui pengaruh pemberian tablet Fe terhadap kadar Hb pada ibu hamil. Sebanyak 10 ibu hamil diberi tablet Fe dan diukur kadar Hb sebelum dan sesudah pemberian Fe. Hasil pengukuran sbb :
Sebelum : 12,2 11,3 14,7 11,4 11,5 12,7 11,2 12,1 13,3 10,8
Sesudah : 13,0 13,4 16,0 13,6 14,0 13,8 13,5 13,8 15,5 13,2
Buktikan apakah ada perbedaan kadar Hb antara sebelum dan sesudah pemberian tablet Fe, dengan alpha 5%
Jawab :
Hipotesis
Ho :δ=0 (tdk ada perbedaan kadar Hb sebelum dan sesudah pemberian Fe)
Ha : δ≠0 (ada perbedaan kadar Hb sebelum dan sesudah pemberian Fe)
Perhitungan uji t :
Sebelum : 12,2 11,3 14,7 11,4 11,5 12,7 11,2 12,1 13,3 10,8
Sesudah : 13,0 13,4 16,0 13,6 14,0 13,8 13,5 13,8 15,5 13,2
deviasi : 0,8 2,1 1,3 2,2 2,5 1,1 2,3 1,7 2,2 2,4
(jumlah deviasi = 18,6)
• rata-rata deviasi : 18,6/10 = 1,86
• Standar deviasi dari nilai deviasinya (SD_d)=0,60
d 1,86
t = ------------------- t = --------------
Sd_d / n 0,60/√ 10
t = 9,80
Kemudian dari nilai t tersebut dibandingkan dengan tabel t dengan df = n – 1 = 9
.20 .10 .05 .01
1
9
.
1,383 1,833 2,262 3,250
-
• Dari soal diatas didapat t=9,80, dan df=9 maka nilai t tabel adalah 2,26
• Keputusan uji statistik
t hitung ≥ t tabel sehingga Ho ditolak
t hitung < t tabel maka Ho diterima
Jadi secara statistik ada perbedaan kadar Hb antara sebelum dan sesudah diberi tablet Fe