Suppose that there is an urn containing $n$ different coupons, from which $m$ coupons are being collected, equally likely, with replacement. 

Let $C(m)$ be the whole set of the $m$ collected coupons. Let $\mathcal{P}_k(m)$ be the subset of all partitions of $C(m)$ where in all partitions $P \in \mathcal{P}_k(m)$, for each coupon subset $S \in P$, we have: ***(i)*** All coupon types in $S$ are distinct, and ***(ii)*** $|S| \le k$. 

**Questions**: What is the mimimum cardinality of a partition in $\mathcal{P}_k(m)$ (in expectation)? What is the maximum number of coupon subsets having size equal to $k$ of a partition in $\mathcal{P}_k(m)$ (in expectation)?

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Toy example: m=10, n=3, k=2. 
Multiset of coupon types collected after sampling $m$ coupons once: 
$C(m)=\{1, 1, 1, 1, 1, 1, 2, 2, 2, 3\}$. 
Mimimum cardinality of a partition in $\mathcal{P}_k(m)$: $6$. 
Maximum number of coupon subsets having size equal to $k$ of a partition in $\mathcal{P}_k(m)$: $4$.
*Partition example*: $\{1, 2\}$, $\{1, 2\}$, $\{1, 2\}$, $\{1, 3\}$, $\{1\}$, $\{1\}$.