A:The overall probability of jyka is 84%. For those who are not jyka, the probability of kwox is 61%. For those who are jyka, the probability of kwox is 61%. B:Is kwox more likely than not kwox overall? Answer: pos
A:For those who are not yupt and are not zupj, the probability of muvq is 52%. For those who are not yupt and are zupj, the probability of muvq is 71%. For those who are yupt and are not zupj, the probability of muvq is 56%. For those who are yupt and are zupj, the probability of muvq is 9%. For those who are not yupt, the probability of zupj is 17%. For those who are yupt, the probability of zupj is 36%. B:If we disregard the mediation effect through zupj, would yupt positively affect muvq? Answer: pipeline
A:For those who are not jyka, the probability of lirg is 11%. For those who are jyka, the probability of lirg is 54%. B:For those who are jyka, would it be less likely to see lirg if the individual was not jyka? Answer: pos
A:We know that confounder active or high cigarette tax causes smoking mother. confounder active or smoking mother causes normal infant birth weight. We observed the cigarette tax is high and confounder active. B:Would the infant is born with a normal weight if nonsmoking mother instead of smoking mother? Answer: pos
A:For captains who release prisoners, the probability of the prisoner's death is 29%. For captains who execute prisoners, the probability of the prisoner's death is 72%. B:Will the captain's order to execute the prisoner decrease the chance of the prisoner's death? Answer: pipeline
A:Method 1: We look directly at how zuph correlates with uvzi in general. Method 2: We look at this correlation case by case according to wibl. B:To understand how zuph affects uvzi, is it more correct to use the Method 1 than Method 2? Answer: pos
A:For infants with nonsmoking mothers and low infant birth weight, the probability of high infant mortality is 46%. For infants with nonsmoking mothers and normal infant birth weight, the probability of high infant mortality is 74%. For infants with smoking mothers and low infant birth weight, the probability of high infant mortality is 18%. For infants with smoking mothers and normal infant birth weight, the probability of high infant mortality is 49%. For infants with nonsmoking mothers and with poor health, the probability of normal infant birth weight is 45%. For infants with nonsmoking mothers and with good health, the probability of normal infant birth weight is 22%. For infants with smoking mothers and with poor health, the probability of normal infant birth weight is 72%. For infants with smoking mothers and with good health, the probability of normal infant birth weight is 50%. The overall probability of good health is 14%. B:Does maternal smoking status negatively affect infant mortality through infant's birth weight? Answer: pipeline
A:For those who are not kwox, the probability of kwoz is 93%. For those who are kwox, the probability of kwoz is 86%. B:Will kwox increase the chance of kwoz? Answer: pipeline
A:The overall probability of kwox is 4%. For those who are not kwox, the probability of kwoz is 52%. For those who are kwox, the probability of kwoz is 52%. B:Is kwoz less likely than not kwoz overall? Answer:
pipeline