统计软件应用考试试题doc资料
- 格式:doc
- 大小:181.00 KB
- 文档页数:8
专业:姓名:学号:河南大学经济学院2015~2016学年第一学期考试统计学专业《统计软件应用》试卷考试方式:闭卷考试时间:120 分钟卷面总分:100分一、(15分)根据“婴儿死亡率.xls”中数据完成下列任务:(1)利用软件对CM婴儿死亡率序列进行统计描述,要求在答题纸上写出均值,标准差,最大值,最小值,中位数。
(2)作CM与PGNP(人均GNP)、FLR(妇女文盲率)和TFP(总生育率)之间的回归,把结果复制粘贴到后面答题区域,并在答题纸上写出回归方程。
(3)0.05的显著水平上分析各系数的显著性及各系数的含义(写到答题纸上)。
二、(15分)根据表5-14提供的美国GNP和M2数据:(1)完成GNP对M2的线性(两变量直接回归)、双对数(因变量和自变量都取对数后回归)、对数—线性(因变量取对数自变量不取对数的回归)模型估计,在答题纸上写出各模型回归方程(要求把软件输出结果复制粘贴到后面)。
(2)解释双对数模型系数的含义(写到答题纸上)。
(3)货币学家认为,货币供给的变化率与GNP变化率存在一对一的关系(检验货币供给的变化率与GNP变化率之比是否为1),要求把软件输出结果复制粘贴到后面,答题纸上给出检验结果分析货币学家观点是否正确。
三、(15分)利用auto.dta的数据,利用stata按如下要求绘制图形:(1)根据foreign变量分组绘制mpg与weight的散点和线性拟合复合图,并要求散点为红色。
(2)绘制mpg、price与weight的散点图,要求两个y轴变量分别使用左右两个y轴。
(3)绘制price与weight的散点图,拟合图和一元线性回归的95%的预测区间复合图。
四、(10分)使用数据“大学生信息表.dta”里的drink变量和employed变量,把你计算的软件运行结果复制粘贴到后面,并在答题纸上分析饮酒行为是否会因为是否就业而有所变化。
五、(10分)使用职工信息表.dta,完成以下任务:(1)画出男女职工工资柱状图(2)使用t统计量检验不同性别的职工工资是否存在显著差异(结果写在答题纸上并分析原因)六、(15分)使用fringe.dta数据:(1)估计因变量为hrearn自变量为educ、exper、expersq、tenure、union、south、nrtheast、male的回归方程(回归方程写在答题纸上)(2)检验多重共线性(答题纸上写出结果并分析原因)(3)检验异方差性(答题纸上写出结果并分析原因)七、(10分)利用给出的mroz.dta数据,估计变量educ、 exper、 expersq、age、kidslt6 kidsge6对二元变量女性劳动参与inlf的真实直接影响,根据软件结构写出回归方程并解释educ系数的含义。
八、(10分)附加题利用R软件计算如下问题:已知矩阵-1-31120002⎛⎫⎪⎪⎪⎝⎭,求该矩阵转置矩阵的特征值和特征向量(答题纸上写出结果)。
答题区域一、(2)Dependent Variable: CMMethod: Least SquaresDate: 12/21/15 Time: 15:06Sample: 1 64Included observations: 64Variable Coefficient Std. Error t-Statistic Prob.C 168.3067 32.89165 5.117003 0.0000FLR -1.768029 0.248017 -7.128663 0.0000PGNP -0.005511 0.001878 -2.934275 0.0047TFR 12.86864 4.190533 3.070883 0.0032R-squared 0.747372 Mean dependent var 141.5000 Adjusted R-squared 0.734740 S.D. dependent var 75.97807 S.E. of regression 39.13127 Akaike info criterion 10.23218 Sum squared resid 91875.38 Schwarz criterion 10.36711 Log likelihood -323.4298 Hannan-Quinn criter. 10.28534 F-statistic 59.16767 Durbin-Watson stat 2.170318 Prob(F-statistic) 0.000000二、(1)线性Dependent Variable: GNPMethod: Least SquaresDate: 12/21/15 Time: 15:16Sample: 1965 2006Included observations: 42Variable Coefficient Std. Error t-Statistic Prob.C 703.2753 87.43432 8.043469 0.0000M2 0.471822 0.007195 65.58031 0.0000R-squared 0.990785 Mean dependent var 5113.645 Adjusted R-squared 0.990555 S.D. dependent var 3725.917 S.E. of regression 362.1107 Akaike info criterion 14.66823 Sum squared resid 5244967. Schwarz criterion 14.75097 Log likelihood -306.0327 Hannan-Quinn criter. 14.69855 F-statistic 4300.777 Durbin-Watson stat 0.135454 Prob(F-statistic) 0.000000双对数Dependent Variable: LOG(GNP)Method: Least SquaresDate: 12/21/15 Time: 15:18Sample: 1965 2006Included observations: 42Variable Coefficient Std. Error t-Statistic Prob.C 0.782576 0.068644 11.40045 0.0000LOG(M2) 0.853888 0.007839 108.9312 0.0000R-squared 0.996640 Mean dependent var 8.207998 Adjusted R-squared 0.996556 S.D. dependent var 0.893209 S.E. of regression 0.052416 Akaike info criterion -3.012771 Sum squared resid 0.109896 Schwarz criterion -2.930025 Log likelihood 65.26819 Hannan-Quinn criter. -2.982441 F-statistic 11866.00 Durbin-Watson stat 0.143813 Prob(F-statistic) 0.000000对数—线性Dependent Variable: LOG(GNP)Method: Least SquaresDate: 12/21/15 Time: 15:20Sample: 1965 2006Included observations: 42Variable Coefficient Std. Error t-Statistic Prob.C 7.239215 0.089538 80.85064 0.0000M2 0.000104 7.37E-06 14.06692 0.0000R-squared 0.831847 Mean dependent var 8.207998 Adjusted R-squared 0.827643 S.D. dependent var 0.893209 S.E. of regression 0.370824 Akaike info criterion 0.900268 Sum squared resid 5.500408 Schwarz criterion 0.983014 Log likelihood -16.90563 Hannan-Quinn criter. 0.930598 F-statistic 197.8783 Durbin-Watson stat 0.038720 Prob(F-statistic) 0.000000(3)Wald Test:Equation: UntitledTest Statistic Value df Probabilityt-statistic -18.63963 40 0.0000F-statistic 347.4357 (1, 40) 0.0000Chi-square 347.4357 1 0.0000Null Hypothesis: C(2)=1Null Hypothesis Summary:Normalized Restriction (= 0) Value Std. Err.-1 + C(2)-0.1461120.007839Restrictions are linear in coefficients.三、(1)(2)M i l e a g e (m p g )5,00010,00015,000 四、. 0.014No 2.13969 Col Mean Yes Row Mean-(Scheffe) Comparison of 33-point drinking scale by Are you employed?Bartlett's test for equal variances: chi2(1) = 0.0683 Prob>chi2 = 0.794 Total 10848.4813 240 45.2020055Within groups 10574.7336 239 44.2457472Between groups 273.74774 1 273.74774 6.19 0.0136 Source SS df MS F Prob > F Analysis of VarianceTotal 19.136929 6.7232437 241No 20.3 6.7382926 110 Yes 18.160305 6.5783056 131 employed? Mean Std. Dev. Freq. Are you Summary of 33-point drinking scale . oneway drink employed,tabulate scheffe五、m e a n o f w a g e(2).Pr(T < t) = 0.9668 Pr(|T| > |t|) = 0.0664 Pr(T > t) = 0.0332 Ha: diff < 0 Ha: diff != 0 Ha: diff > 0Ho: diff = 0 degrees of freedom = 28 diff = mean(ÄÐÖ°¹¤) - mean(Ůְ¹¤) t = 1.9105 diff 45.47619 23.80348 -3.283028 94.23541 combined 30 885.8333 11.39561 62.41633 862.5267 909.14 Ůְ¹¤ 9 854 7.896905 23.69072 835.7897 872.2103 ÄÐÖ°¹¤ 21 899.4762 15.07594 69.08663 868.0283 930.924 Group Obs Mean Std. Err. Std. Dev. [95% Conf. Interval] Two-sample t test with equal variances. ttest wage,by(gender)0000000000000六、七、八、。