Standard deviation

139 views 7:08 am 0 Comments September 10, 2023
A company is facing a legal dispute, and the potential damages are estimated at $500,000. The company’s insurance policy has a deductible of $50,000, and it covers 80% of the remaining damages. How much will the company have to pay out of pocket if they lose the legal dispute?
Your son has just gotten his driver’s license and your bank account is about to get a little (a lot?) lighter. To help mitigate the impact on your finances, you have opted for a high deductible auto insurance policy. The deductible on your policy is $4000, which means that you will pay the first $4000 of any damages and then the insurance will cover the rest. Because of this, if there is an accident for which the damages are less than $4000, you aren’t even going to file a claim with the insurance company. The less they know, the better? You will just pay it out of pocket. You believe that any accident will result in a damage amount which is normally distributed with a mean of $4500 and a standard deviation of $1500. The value of your son’s car is only $7500, so that is the upper bound on the damage amount because in that case, you can junk the car and buy a different one for $7500. The lower bound on damages is obviously $0. The probability of an automobile accident this year is 7.5%.  Build a Monte Carlo simulation model to show your out of pocket expenses in this situation. If there is no accident, then there is no out of pocket expense. Analyze the results of the 1000 iterations to find the following as a percentage of the 1000 interactions: 1. how often a claim was filed (damage met deductible). 2. how often you ended up buying a different car. Also, calculate your expected out of pocket expense.  For these three questions, put a cell reference in Cells B4:B6 to wherever you have calculated those values in your spreadsheet so that I don’t have to hunt for them.Your son has just gotten his driver’s license and your bank account is about to get a little (a lot?) lighter. To help mitigate the impact on your finances, you have opted for a high deductible auto insurance policy. The deductible on your policy is $4000, which means that you will pay the first $4000 of any damages and then the insurance will cover the rest. Because of this, if there is an accident for which the damages are less than $4000, you aren’t even going to file a claim with the insurance company. The less they know, the better? You will just pay it out of pocket. You believe that any accident will result in a damage amount which is normally distributed with a mean of $4500 and a standard deviation of $1500. The value of your son’s car is only $7500, so that is the upper bound on the damage amount because in that case, you can junk the car and buy a different one for $7500. The lower bound on damages is obviously $0. The probability of an automobile accident this year is 7.5%.ÂÂ

Build a Monte Carlo simulation model to show your out of pocket expenses in this situation. If there is no accident, then there is no out of pocket expense.

Analyze the results of the 1000 iterations to find the following as a percentage of the 1000 interactions:

1. how often a claim was filed (damage met deductible).

2. how often you ended up buying a different car.

Also, calculate your expected out of pocket expense.ÂÂ

For these three questions, put a cell reference in Cells B4:B6 to wherever you have calculated those values in your spreadsheet so that I don’t have to hunt for them.

Tags: , , , , , , , , , ,

Leave a Reply

Your email address will not be published. Required fields are marked *