This model fills a bathtub, while outflow occurs at a flow determined by the volume of water (or pressure at outlet) of the bathtub. It could just as well be a dam or lake that is modeled.

Exercise 1. The bath is initially empty. Water flows in through the tap at a variable rate (L/min) and flows out through the drain at a constant rate (30 L/min). The tap is controlled using a slider at 5 minute (300 second) intervals.

Exemplos básicos de estoques em diversas configurações.

Simple demo of inflow and drain of a resource.

Exercise 1. The bath is initially empty. Water flows in through the tap at a variable rate (L/min) and flows out through the drain at a constant rate (30 L/min). The tap is controlled using a slider at 5 minute (300 second) intervals.

This model fills a bathtub, while outflow occurs at a flow determined by the volume of water (or pressure at outlet) of the bathtub. It could just as well be a dam or lake that is modeled.

This model fills a bathtub, while outflow occurs at a flow determined by the volume of water (or pressure at outlet) of the bathtub. It could just as well be a dam or lake that is modeled.

This model fills a bathtub, while outflow occurs at a flow determined by the volume of water (or pressure at outlet) of the bathtub. It could just as well be a dam or lake that is modeled.

Oscillateur de Duffing. 

Exercise 1. 'Water in bathtub' is the stock, measured as a volume of water, in L. The bath is initially empty. The bath receives water from the taps ('Variable inflow from tap', in L/min) and loses water to the drain ('Constant outflow to drain', in L/min). 'Twiddling the taps' automatically switches the inflow from 40 L/min to 20 L/min at 5 minute (300 second) intervals. The outflow remains constant at 30 L/min.