On your screens you should see a user interface that looks somewhat like a circuit simulator program. You have several different types of components, available, and connectors between them. Some of the components contain an adjustable knob. Some contain a numeric output dial and some have neither.
These components obey some simple equations. These equations do not necessarily correspond to any real world electronic components. To encourage thought about which experiment to perform next, you will be penalized for the number of components used. You are of course free to reuse components from one experiment in the next, but some experiments will break components. Most broken components will have a big red X appear on them. However at least one component can be broken in a way that doesn’t have any visual indicator. You may assume that all fresh components are perfectly identical. You may use a calculator. Your task is to figure out the equations behind these components. Go.
On your screens you should see a user interface that looks somewhat like a circuit simulator program. You have several different types of components, available, and connectors between them. Some of the components contain an adjustable knob. Some contain a numeric output dial and some have neither.
These components obey some simple equations. These equations do not necessarily correspond to any real world electronic components. To encourage thought about which experiment to perform next, you will be penalized for the number of components used. You are of course free to reuse components from one experiment in the next, but some experiments will break components. Most broken components will have a big red X appear on them. However at least one component can be broken in a way that doesn’t have any visual indicator. You may assume that all fresh components are perfectly identical. You may use a calculator. Your task is to figure out the equations behind these components. Go.