A:The overall probability of kwox is 60%. For those who are not kwox and are not swoq, the probability of kwoz is 92%. For those who are not kwox and are swoq, the probability of kwoz is 31%. For those who are kwox and are not swoq, the probability of kwoz is 40%. For those who are kwox and are swoq, the probability of kwoz is 86%. B:If we look at those who are swoq, does the chance of kwoz increase when kwox? Answer: math
A:For those who are not yupt and are not zupj, the probability of muvq is 43%. For those who are not yupt and are zupj, the probability of muvq is 49%. 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 56%. For those who are not yupt, the probability of zupj is 3%. For those who are yupt, the probability of zupj is 92%. B:For those who are yupt, would it be less likely to see muvq if the individual was not yupt? Answer: math
A:For infants with nonsmoking mothers and low infant birth weight, the probability of high infant mortality is 32%. For infants with nonsmoking mothers and normal infant birth weight, the probability of high infant mortality is 73%. For infants with smoking mothers and low infant birth weight, the probability of high infant mortality is 4%. 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 55%. For infants with nonsmoking mothers and with good health, the probability of normal infant birth weight is 24%. For infants with smoking mothers and with poor health, the probability of normal infant birth weight is 83%. 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 6%. B:If we disregard the mediation effect through infant's birth weight, would maternal smoking status positively affect infant mortality? Answer: lingerie
A:The overall probability of college degree or higher is 59%. For people without a college degree, the probability of large feet is 76%. For people with a college degree or higher, the probability of large feet is 10%. B:Is large feet more likely than small feet overall? Answer: lingerie
A:For hospitalized individuals, the correlation between respiratory issues and broken bones is -0.15. B:If we look at hospitalized individuals, does it mean that respiratory issues does not affect broken bones? Answer: math
A:For those who are not jyka, the probability of kwox is 57%. For those who are jyka, the probability of kwox is 41%. B:Will jyka increase the chance of kwox? Answer: lingerie
A:For those who are not xevo and are not tijv, the probability of gyzp is 53%. For those who are not xevo and are tijv, the probability of gyzp is 86%. For those who are xevo and are not tijv, the probability of gyzp is 58%. For those who are xevo and are tijv, the probability of gyzp is 80%. For those who are not xevo, the probability of tijv is 83%. For those who are xevo, the probability of tijv is 19%. B:For those who are xevo, would it be more likely to see gyzp if the individual was not xevo? Answer: math
A:For those who are not zuph, the probability of glimx is 46%. For those who are zuph, the probability of glimx is 48%. B:Will zuph decrease the chance of glimx? Answer: lingerie
A:The overall probability of kwox is 62%. For those who are not kwox, the probability of kwoz is 82%. For those who are kwox, the probability of kwoz is 80%. B:Is kwoz less likely than not kwoz overall? Answer:
lingerie