Section 1

Introduction

In Solow–Swan, savings was a fixed fraction of output — no theory of where the rate came from. In Ramsey–Cass–Koopmans, savings emerged from the optimal choice of a single representative household with an infinite horizon. Both models share a feature that is striking once you notice it: **every agent in the economy is the same**, and that agent lives forever.

Diamond's model breaks both assumptions in the simplest possible way. Time is discrete. Every period a new cohort is born; the old cohort dies. At any instant the economy contains exactly two generations: the *young*, who work and save, and the *old*, who consume their accumulated savings and then exit the stage. The young of today are the old of tomorrow — and they care about nothing else.

Why the change matters

Capital comes from the young: Aggregate savings at time $t$ equals the savings of the young cohort. There are no infinitely-lived households smoothing consumption across all of history.
No intertemporal welfare aggregation: Each cohort optimises *its own* two-period utility. Nobody internalises the welfare of unborn generations. The decentralised allocation need not maximise any social objective spanning generations.
Steady state can be inefficient: If agents save 'too much' from a social standpoint, the economy can converge to a steady state with capital *above* the golden rule. Reducing $k^*$ would raise consumption for all current and future cohorts. This is *dynamic inefficiency*.
Policy has real bite: Pay-as-you-go social security, public debt, and similar intergenerational transfers are *not* neutral. They alter the savings decision of the young and hence the path of capital. In dynamically inefficient economies they can be Pareto-improving.

The three big questions

Question	Answered in
How do agents decide how much to save?	§6 Household Problem · §8 Derivations
Does the economy converge, and to what?	§9 Capital Accumulation · §10 Steady State
Is the equilibrium efficient? If not, can policy help?	§11 Dynamic Inefficiency · §13 Applications

Each question is answered in a dedicated later section.