SAS源程序: data t1; input yl y2 @@ diff y1-y2; cards; 102513128143155122027618 proc means mean t prt maxdec-2; var diff; run;
SAS源程序: data t1; input y1 y2 @@; diff = y1-y2; cards; 10 25 13 12 8 14 3 15 5 12 20 27 6 18 ; proc means mean t prt maxdec=2; var diff; run;
主要输出结果: U Analysis Variable DIFF mean T Prob>T -8.29 -4.15 0.0060 结论:A法处理的病毒在番茄上产生的病痕数极 显著小于B法(因为diff的平均数为-8.29, Prob>|T=0.006小于0.01)
主要输出结果: Analysis Variable : DIFF mean T Prob>|T| -8.29 -4.15 0.0060 结论:A法处理的病毒在番茄上产生的病痕数极 显著小于B法(因为diff的平均数为-8.29, Prob>|T =0.006小于0.01)
3.2、两可量样本成组法测验 P85[例5.4]研究矮壮素使玉米矮化的 效果,在抽穗期测定喷矮壮素小区8株、对照 区玉米9株,其株高结果如表5.3。试作假设测 验
3.2、两可量样本成组法t测验 P85[例5.4] 研究矮壮素使玉米矮化的 效果,在抽穗期测定喷矮壮素小区8株、对照 区玉米9株,其株高结果如表5.3。试作假设测 验
表5.3喷矮壮素与否的玉米株高(cm) y1(喷矮壮素) 2(对照) 160 170 160 270 200 180 160 250 200 270 170 290 150 270 210 230 170
y 1 (喷矮壮素) y 2 (对照) 160 170 160 270 200 180 160 250 200 270 170 290 150 270 210 230 170 表5.3 喷矮壮素与否的玉米株高(cm)
SAS源程序 data x; input d gr @@ cards; 160a170b160a270b200a180b 160a250b200a270b170a290b 150a270b210a230b170b Proc ttest; class gr; var d; run;
SAS源程序 data x; input d gr $ @@; cards; 160 a 170 b 160 a 270 b 200 a 180 b 160 a 250 b 200 a 270 b 170 a 290 b 150 a 270 b 210 a 230 b 170 b ; Proc ttest; class gr; var d; run;