Question: A research foundation must distribute 7 identical grants to 5 distinct projects, ensuring each project receives at least one grant. How many valid allocation methods are there? - Redraw

Understanding the Context

In today’s competitive environment for innovation, funding decisions carry significant weight. When a foundation distributes resources across diverse, independent projects, ensuring each receives at least one grant reflects principles of fairness, opportunity, and momentum. This type of allocation often arises in academic research, nonprofit innovation, and government-funded initiatives. As organizations strive for transparency and evidence-based practices, solving the core math behind these distributions becomes essential—whether for internal planning, grantmaker reporting, or public accountability.

The Core Allocation Challenge

The question: “A research foundation must distribute 7 identical grants to 5 distinct projects, each receiving at least one grant, how many valid allocation methods are there?
Answerable through combinatorics using the “stars and bars” method, this problem hinges on transforming constraints into a standard counting framework.

Key Insights

Because grants are identical and each project must receive at least one, the challenge reduces to finding how many ways 7 grants can be divided into 5 non-zero whole-number parts. This avoids zero allocations and ensures every project counts.

Breaking Down the Math

To solve this, first satisfy the constraint: each project receives at least one grant. This effective reweighting transforms the problem:
Subtract 5 grants (one per project), leaving 2 grants to freely allocate among the 5 projects—with no minimum restriction now.

Now the task becomes: How many ways can 2 identical items be distributed among 5 distinct groups?

Final Thoughts

This is a classic “stars and bars” scenario. The number of non-negative integer solutions to:
[ x_1 + x_2 + x_3 + x_4 + x_5 = 2 ]
is given by the formula:
[ \binom{n + k -