Can You Retire on $1.5 Million?
What $1.5 Million actually pays you in retirement — income at a 3%–5% withdrawal rate, how long it lasts, and how to get there.
$1.5 Million at the 4% rule pays roughly
$60,000/year
≈ $5,000 per month, before Social Security.
| Withdrawal rate | Annual income | Monthly income |
|---|---|---|
| 3% (conservative) | $45,000/yr | $3,750/mo |
| 3.5% | $52,500/yr | $4,375/mo |
| 4% (classic safe rate) | $60,000/yr | $5,000/mo |
| 4.5% | $67,500/yr | $5,625/mo |
| 5% (aggressive) | $75,000/yr | $6,250/mo |
Is $1.5 Million enough?
The honest answer is "it depends on your spending and your Social Security." $1.5 Million safely covers about $60,000/year on its own. A typical Social Security benefit adds $1,500–$3,000/month, so total retirement income is often meaningfully higher than the nest egg alone suggests. Where you live, your health-care costs, and whether your home is paid off swing the answer the most.
How to reach $1.5 Million
You can retire at age
56
Lever to retire earlier: increase monthly contributions, lower expected expenses, or accept higher withdrawal risk. Bumping monthly by $500 typically shaves 3-5 years.
FAQ
How much income does $1.5 Million generate in retirement?
Using the 4% rule, $1.5 Million provides about $60,000 per year ($5,000/month) in inflation-adjusted income that's designed to last 30+ years. A more conservative 3% gives $45,000/yr; a more aggressive 5% gives $75,000/yr with higher risk of running out.
Can I retire on $1.5 Million?
It depends on your spending. $1.5 Million comfortably supports a lifestyle costing around $60,000/year before Social Security. Add expected Social Security (often $1,500–$3,000/mo) and the safe spending level rises. If your annual expenses are below $60,000, $1.5 Million plus Social Security is likely enough.
How long will $1.5 Million last in retirement?
At a 4% withdrawal rate adjusted for inflation, $1.5 Million is built to last 30+ years historically. Spending faster (5%+) shortens that window; spending slower (3%) can make it effectively perpetual.