Respuesta :
Answer:
The probability that a woman in her 60s has breast cancer given that she gets a positive mammogram is 0.0276.
Step-by-step explanation:
Let a set be events that have occurred be denoted as:
S = {A₁, A₂, A₃,..., Aₙ}
The Bayes' theorem states that the conditional probability of an event, say Aₙ given that another event, say X has already occurred is given by:
[tex]P(A_{n}|X)=\frac{P(X|A_{n})P(A_{n})}{\sum\limits^{n}_{i=1}{P(X|A_{i})P(A_{i})}}[/tex]
The disease Breast cancer is being studied among women of age 60s.
Denote the events as follows:
B = a women in their 60s has breast cancer
+ = the mammograms detects the breast cancer
The information provided is:
[tex]P(B) = 0.0312\\P(+|B)=0.81\\P(+|B^{c})=0.92[/tex]
Compute the value of P (B|+) using the Bayes' theorem as follows:
[tex]P(B|+)=\frac{P(+|B)P(B)}{P(+|B)P(B)+P(+|B^{c})P(B^{c})}[/tex]
[tex]=\frac{(0.81\times 0.0312)}{(0.81\times 0.0312)+(0.92\times (1-0.0312)}\\[/tex]
[tex]=\frac{0.025272}{0.025272+0.891296}[/tex]
[tex]=0.02757\\\approx0.0276[/tex]
Thus, the probability that a woman in her 60s has breast cancer given that she gets a positive mammogram is 0.0276.
Answer:
The probability that she indeed has breast cancer is 0.0276.
Step-by-step explanation:
We are given that a certain disease occurs most frequently among older women. Of all age groups, women in their 60's have the highest rate of breast cancer.
The NCI estimates that 3.12% of women in their 60's get breast cancer. A mammogram can typically identify correctly 81% of cancer cases and 92% of cases without cancer.
Let Probability that women in their 60's get breast cancer = P(BC) = 0.0312
Probability that women in their 60's does not get breast cancer = P(BC') = 1 - P(BC) = 1 - 0.0312 = 0.9688
Also, let P = event that mammograms correctly detect positive results for breast cancer
So, Probability that mammograms correctly detect positive results given that women actually has breast cancer = P(P/BC) = 0.81
Probability that mammograms detect correctly given that women actually does not has breast cancer = P(P/BC') = 0.92
Now, to find the probability that she indeed has breast cancer given the fact that woman in her 60's gets a positive mammogram, we will use Bayes' Theorem;
The Bayes' theorem is given by;
The Bayes' theorem states that the conditional probability of an event, say [tex]A_k[/tex] given that another event, say X has already occurred is given by:
[tex]P(A_{k}|X)=\frac{P(X|A_{k})P(A_{k})}{\sum\limits^{k}_{i=1}{P(X|A_{i})P(A_{i})}}[/tex]
Similarly, P(BC/P) = [tex]\frac{P(BC) \times P(P/BC)}{P(BC) \times P(P/BC) + P(BC') \times P(P/BC')}[/tex]
= [tex]\frac{0.0312 \times 0.81}{0.0312 \times 0.81 + 0.9688 \times 0.92}[/tex]
= [tex]\frac{0.025272}{0.916568}[/tex] = 0.0276
Hence, the required probability is 0.0276.
