Total Infections in a 4-Week Outbreak: Understanding the Progression Using Exponential Growth

When modeling infectious disease spread, one key question is: how many total people will be infected over the first four weeks? This article explains a fundamental calculation: the sum of infections over time using exponential growth, specifically the formula:

Total Infections = Sum from k=0 to 3 of (2.5)^k plus initial

Understanding the Context

This recurring model helps public health analysts estimate early-stage transmission dynamics and plan interventions effectively.

What Does the Formula Represent?

The expression sum from k=0 to 3 of (2.5)^k computes new infections week by week, where each term represents the number of new infections during week k, starting with week 0 (the initial case). Multiplying this sum by the initial number of infections gives the total infections across four weeks.

Solved ∑k=0∞45k-3∑k=1∞1k2+5∑k=1∞k2+4k2-2Do they converge or | Chegg.com

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Solved ∑k=0∞45k-3∑k=1∞1k2+5∑k=1∞k2+4k2-2Do they converge or | Chegg.com
Evaluate the sum:∑k=100250k3=Hint: Use the summation | Chegg.com
Solved 37. ∑k=0∞k3+11 38. ∑k=2∞(lnk1)k 57. | Chegg.com
Solved Compute (with proof) the sum ∑k=0∞(2k+1)x2k as a | Chegg.com
∑k=0∞5ke−k2 | Chegg.com

Key Insights

Breaking Down the Weekly Infections

Using a growth factor of 2.5, the daily exponential spread model projects:

  • Week 0 (Initial):
    New infections = (2.5)^0 = 1
    Assumed: 1 initial infected individual

  • Week 1:
    New infections = (2.5)^1 = 2.5

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Final Thoughts

  • Week 2:
    New infections = (2.5)^2 = 6.25

  • Week 3:
    New infections = (2.5)^3 = 15.625

Each value reflects compounded spread—each generation of infections fuels the next, consistent with a reproduction number R ≈ 2.5.

Calculating the Total Infections

We sum the week-by-week infections:

Total infections (weeks 0–3) = (2.5)^0 + (2.5)^1 + (2.5)^2 + (2.5)^3
= 1 + 2.5 + 6.25 + 15.625
= 25.375

If multiplied by the initial case (1), the total new infections across four weeks is 25.375. This continuous model approximates cumulative exposure in early outbreak phases.

Why This Model Matters