I need help asap( whoever answers will have Brainlest)Greece is currently experiencing a financial crisis. a. Research the financial crisis in Greece and summarize it in one-two paragraphs. b. You are in charge. By what percentage will you tell Greece to cut their spending? What is the decay factor? c. Write a function modeling this debt situation if the initial debt in 2009 was $500 billion and using the decay factor found in (b). Let y be measured in billions of dollar and x represent the number of years since 2009. d. When will Greece be debt-free if you are in charge? Should you reconsider your answer to (b)?

a. The Greek crisis began when the government borrowed more money that they can repay, so the Greek crisis is a debt crisis. The Greek debt crisis originated from the Greek’s government wasteful and excessive expenditure; especially in public workers’ salaries and overgenerous pension plans. As a result, Greek’s economy became week, corrupt, and incompetent, so the Government had to resort to a massive debt just to function. Debt-to-GDP ratio skyrocketed, which translating in the collapse an subsequent crisis of Greek’s economy.

b. To solve this, we are going to use the standard decay function [tex]y=a(1-b)^x[/tex]where 
[tex]y[/tex] is the final amount remaining after [tex]t[/tex] years of decay[tex]a[/tex] is the initial amount[tex]b[/tex] is the decay rate in decimal form 
[tex](1-b)[/tex] is the decay factor 
[tex]x[/tex] is the time in years

I will tell Greece to cut their expending by 25%
To find our decay factor [tex](1-b)[/tex], we are going to convert the rate from percentage to decimal; to do it, we are going to divide the rate by 100%
[tex]b= \frac{25}{100} [/tex]
[tex]b=0.25[/tex]
Decay factor = [tex](1-b)[/tex]
Decay factor = [tex](1-0.25)[/tex]
Decay factor = (0.75)

We can conclude that our decay factor is (0.75)

c. To solve this, we are going to use the standard decay function [tex]y=a(1-b)^x[/tex] from our previous point. 
where
[tex]y[/tex] is the final amount remaining after [tex]t[/tex] years of decay[tex]a[/tex] is the initial amount[tex]b[/tex] is the decay rate in decimal form 
[tex](1-b)[/tex] is the decay factor 
[tex]x[/tex] is the time in years

We know from our problem that the initial debt in 2009 was $500 billion, so [tex]a=500,000,000,000[/tex]; we also know fromm our previous calculation that our decay factor is (0.75), so lets replace those values in our function:
[tex]y=a(1-b)^x[/tex]
[tex]y=500,000,000,000(0.75)^x[/tex]

We can conclude that the function that model this debt situation is: [tex]y=500,000,000,000(0.75)^x[/tex].

d. Greece will be debt-free when heir debt is zero. Translating this into our model, Greece will be debt-free when [tex]y=0[/tex]. Since we will need logarithms to find the time [tex]x[/tex], and the logarithm of zero is not defined, we are going to use a small value for [tex]y[/tex], so we can use logarithms to find [tex]x[/tex].

Let [tex]y=1[/tex]. After all, a $1 debt for a country is practically the same as being debt-free.
[tex]y=500,000,000,000(0.75)^x[/tex]
[tex]1=500,000,000,000(0.75)^x[/tex]

Now, we can solve for [tex]x[/tex] using logarithms:
[tex] \frac{1}{500,000,000,000} =(0.75)^x[/tex]
[tex](0.75)^x= \frac{1}{500,000,000,000} [/tex]
[tex]ln(0.75)^x=ln(\frac{1}{500,000,000,000})[/tex]
[tex]xln(0.75)=ln(\frac{1}{500,000,000,000})[/tex]
[tex]x= \frac{ln(\frac{0.01}{500,000,000,000})}{ln(0.75)} [/tex]
[tex]x=93.6[/tex]

We can conclude that, with me in charge, Greece will be debt free after 93.6 years. I won't reconsider my answer b. Even tough 93.6 years is a lot of time, cutting the public expense more than 25% will have worse consequences for the economy of the country than the debt itself.