An ice-cream vendor working at a holiday resort has a record of how many scoops of ice-cream he sold each day between 15 July and 20 August this year. He wonders whether his daily sales may depend on (1) the high temperature of the day (measured in "C) and (2) the day of the week. He collects data on daily high temperatures for this period from a meteorology website, and because he also has a deep interest in advanced statistical methods, he decides to fit a multiple linear regression model to the data to see whether sales can be reliably predicted form these two variables. The deterministic component of the model is hypothesised as E(y) = Bo + B₁x₁ + B₂x₂, where x₁ stands for the daily high temperature and x₂ is a dummy variable which equals 0 for weekdays (Monday to Friday) and 1 for weekends (Saturday and Sunday). The SPSS printout of the analysis is shown below. Model 1 Model R Square .256 212 a. Predictors: (Constant), Day of the week (x2), High temperature (x1) Model Summary R .506* Model Adjusted R Square Sum of Squares 276752.043 804838.307 1081590.350 ANOVA df Std. Error of the Estimate 153.856 Regression Residual Total a. Dependent Variable: Sales (scoops) b. Predictors: (Constant), Day of the week (x2), High temperature (x1) (Constant) High temperature (x1) Day of the week (x2) a. Dependent Variable: Sales (scoops) Mean Square 2 138376.022 34 23671.715 36 -212.093 15.713 118.233 Coefficients Unstandardized Coefficients Std. Error 195.196 5.906 54.039 Sig. 5.846 .007b Standardized Coefficients Beta 394 .324 1 -1.087 2.661 2.188 Sig. 285 012 .036 Find the estimated parameters and use the model to predict the number of scoops of ice-scream sold on a Wednesday when the high temperature is 30 °C. (Your answer must be accurate within +1

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An ice-cream vendor working at a holiday resort has a record of how many scoops of ice-cream he sold each day between 15 July and 20 August this year. He wonders whether his daily sales may depend on (1) the high temperature of the day (measured in °C) and (2) the day of the week. He collects data on daily high temperatures for this period from a meteorology website, and because he also has a deep interest in advanced statistical methods, he decides to fit a multiple linear regression model to the data to see whether sales can be reliably predicted form these two variables. The deterministic component of the model is hypothesised as E(y) = Bo + B₁x₁ + B₂x₂, where x₁ stands for the daily high temperature and x₂ is a dummy variable which equals 0 for weekdays (Monday to Friday) and 1 for weekends (Saturday and Sunday). The SPSS printout of the analysis is shown below. Model Model R .506* Model Summary R Square 256 212 a. Predictors: (Constant), Day of the week (x2), High temperature (x1) Model Adjusted R Square Sum of Squares 276752.043 804838.307 1081590.350 ANOVA df Std. Error of the Estimate 153.856 Regression Residual Total a. Dependent Variable: Sales (scoops) b. Predictors: (Constant), Day of the week (x2), High temperature (x1) (Constant) High temperature (x1) Day of the week (x2) a. Dependent Variable: Sales (scoops) Mean Square 2 138376.022 34 23671.715 36 -212.093 15.713 118.233 Coefficients Unstandardized Coefficients B Std. Error 195.196 5.906 54.039 F Sig. 5.846 .007b Standardized Coefficients Beta 394 324 1 -1.087 2.661 2.188 Sig. 285 .012 .036 Find the estimated parameters and use the model to predict the number of scoops of ice-scream sold on a Wednesday when the high temperature is 30 °C. (Your answer must be accurate within +1