A:For those who are not pexu, the probability of rukz is 48%. For those who are pexu, the probability of rukz is 25%. B:For those who are pexu, would it be more likely to see rukz if the individual was not pexu? Answer: w
A:The overall probability of zuph is 22%. For those who are not zuph, the probability of glimx is 75%. For those who are zuph, the probability of glimx is 94%. B:Is glimx less likely than not glimx overall? Answer: adopt
A:Method 1: We look directly at how rixq correlates with xevu in general. Method 2: We look at this correlation case by case according to swoy. B:To understand how rixq affects xevu, is it more correct to use the Method 1 than Method 2? Answer: adopt
A:For those who are not zuph and are not rixq, the probability of xevu is 58%. For those who are not zuph and are rixq, the probability of xevu is 80%. For those who are zuph and are not rixq, the probability of xevu is 58%. For those who are zuph and are rixq, the probability of xevu is 67%. The overall probability of zuph is 69%. B:Will rixq increase the chance of xevu? Answer: w
A:For those who are not xevo, the probability of gyzp is 90%. For those who are xevo, the probability of gyzp is 28%. B:For those who are xevo, would it be less likely to see gyzp if the individual was not xevo? Answer: adopt
A:We know that old age causes high hospital bill. old age and high hospital bill causes freckles. We observed the patient is old. B:Would the patient has no freckles if low hospital bill instead of high hospital bill? Answer: w
A:Method 1: We look at how gene correlates with lung cancer case by case according to smoking. Method 2: We look directly at how gene correlates with lung cancer in general. B:To understand how gene affects lung cancer, is it more correct to use the Method 1 than Method 2? Answer: adopt
A:For people who do not have a brother and nonsmokers, the probability of lung cancer is 75%. For people who do not have a brother and smokers, the probability of lung cancer is 57%. For people who have a brother and nonsmokers, the probability of lung cancer is 82%. For people who have a brother and smokers, the probability of lung cancer is 59%. For people who do not have a brother and with low pollution, the probability of smoking is 84%. For people who do not have a brother and with high pollution, the probability of smoking is 52%. For people who have a brother and with low pollution, the probability of smoking is 59%. For people who have a brother and with high pollution, the probability of smoking is 28%. The overall probability of high pollution is 41%. B:If we disregard the mediation effect through smoking, would having a brother positively affect lung cancer? Answer: w
A:Method 1: We look directly at how maternal smoking status correlates with infant's birth weight in general. Method 2: We look at this correlation case by case according to unobserved confounders. B:To understand how maternal smoking status affects infant's birth weight, is it more correct to use the Method 1 than Method 2? Answer:
adopt