A:For infants with nonsmoking mothers and low infant birth weight, the probability of high infant mortality is 48%. For infants with nonsmoking mothers and normal infant birth weight, the probability of high infant mortality is 72%. For infants with smoking mothers and low infant birth weight, the probability of high infant mortality is 16%. For infants with smoking mothers and normal infant birth weight, the probability of high infant mortality is 37%. For infants with nonsmoking mothers and with poor health, the probability of normal infant birth weight is 52%. For infants with nonsmoking mothers and with good health, the probability of normal infant birth weight is 26%. For infants with smoking mothers and with poor health, the probability of normal infant birth weight is 78%. For infants with smoking mothers and with good health, the probability of normal infant birth weight is 57%. The overall probability of good health is 1%. B:If we disregard the mediation effect through infant's birth weight, would maternal smoking status negatively affect infant mortality? Answer: hitting
A:For those who are not gwet, the probability of xevu is 56%. For those who are gwet, the probability of xevu is 42%. For those who are not gwet, the probability of yomx is 62%. For those who are gwet, the probability of yomx is 35%. B:Will yomx decrease the chance of xevu? Answer: highways
A:Method 1: We look at how pexu correlates with rukz case by case according to kraz. Method 2: We look directly at how pexu correlates with rukz in general. B:To understand how pexu affects rukz, is it more correct to use the Method 1 than Method 2? Answer: hitting
A:Method 1: We look at how yomx correlates with xevu case by case according to cwoi. Method 2: We look directly at how yomx correlates with xevu in general. B:To understand how yomx affects xevu, is it more correct to use the Method 1 than Method 2? Answer: highways
A:For individuals who are not male and applicants to a non-competitive department, the probability of being allergic to peanuts is 60%. For individuals who are not male and applicants to a competitive department, the probability of being allergic to peanuts is 20%. For individuals who are male and applicants to a non-competitive department, the probability of being allergic to peanuts is 75%. For individuals who are male and applicants to a competitive department, the probability of being allergic to peanuts is 97%. For individuals who are not male, the probability of competitive department is 40%. For individuals who are male, the probability of competitive department is 61%. B:Does gender positively affect peanut allergy through department competitiveness? Answer: highways
A:For those who are not zuph and are not jyka, the probability of glimx is 86%. For those who are not zuph and are jyka, the probability of glimx is 30%. For those who are zuph and are not jyka, the probability of glimx is 39%. For those who are zuph and are jyka, the probability of glimx is 21%. For those who are not zuph, the probability of jyka is 10%. For those who are zuph, the probability of jyka is 24%. B:If we disregard the mediation effect through jyka, would zuph negatively affect glimx? Answer: hitting
A:The overall probability of xevo is 79%. The probability of not xevo and gyzp is 8%. The probability of xevo and gyzp is 26%. B:Is the chance of gyzp larger when observing xevo? Answer: highways
A:We know that pexu and hwax causes rukz. We observed an individual is not hwax. B:Would an individual is not rukz if pexu instead of not pexu? Answer: hitting
A:For those who are not jyka, the probability of glimx is 54%. For those who are jyka, the probability of glimx is 54%. For those who are not jyka, the probability of zuph is 56%. For those who are jyka, the probability of zuph is 65%. B:Will zuph increase the chance of glimx? Answer:
hitting