Warning: Some posts on this platform may contain adult material intended for mature audiences only. Viewer discretion is advised. By clicking ‘Continue’, you confirm that you are 18 years or older and consent to viewing explicit content.
with context, that’s a 2800% increase in 80 years, a 35% increase per year average. 15 years = 525% increase lost, final value would be 45 per hour. I have no idea if this is right and don’t condone this math for any reference.
The math is not right. Percentages don’t multiply like that.
A change from 0.25 to 7.25 over 71 years means an annual increase of about 5%. That 5% annual change, starting with $7.25 15 years ago, would take us to around $15 today.
with context, that’s a 2800% increase in 80 years, a 35% increase per year average. 15 years = 525% increase lost, final value would be 45 per hour. I have no idea if this is right and don’t condone this math for any reference.
That’s not how compound increases are measured.
We can use the compound interest formula for this.
A = P * (1 + r) ^ t
To figure out the annual increase for the whole time we can plug in what we know and solve for what we don’t:
7.25 = 0.25 * (1+r) ^ 80 29 = (1+r) ^ 80 years 1.043 = 1+r 0.043 = r
So that’s about 4.3% increase per year over the 80 years.
Now we can see what we would have as minimum wage if it had continued over the past 15 years:
A = 7.25 * (1+0.043) ^ 15 A = 7.25 * 1.043 ^ 15 A = 7.25 * 1.88 A = 13.63
So that’s a $13.63 minimum wage.
The math is not right. Percentages don’t multiply like that.
A change from 0.25 to 7.25 over 71 years means an annual increase of about 5%. That 5% annual change, starting with $7.25 15 years ago, would take us to around $15 today.