Answer:
The household should not buy this policy
Explanation:
The probability of burglary is
$200,000 * 0.02 = $4,000
The insurance policy costs $15,000
The loss probability is lower than the cost of insurance policy
E(U) = (Jewelry Worth - Jewelry loss due to burglary + Insurance cover - Insurance policy cost) * 0.5
E(U) $200,000 - $70,000 + $70,000 - $15,000
E(U) = $ [tex]$185,000^{0.5}[/tex]
E(U) $430.11
The household should not buy the insurance policy.
Data and Calculations:
Value of jewelry = $200,000
Probability of a burglary = 0.02
Probability of no burglary = 0.98 (1 - 0.02)
Loss from burglary = $70,000
Value of jewelry after burglary = $130,000 ($200,000 - $70,000)
Cost of insurance = $15,000
Expected value of jewelry after the burglary = $198,600 {($200,000 x 0.98) + ($130,000 x 0.02)}
Expected loss after burglary = $1,400 ($200,000 - $198,600)
Thus, the household should not buy the insurance policy. It will pay more insurance premium ($15,000) than the expected value of loss ($1,400).
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