The first of six shows on heat and temperature, introduces molecules. Even though a solid object looks motionless, its molecules move back and forth in a lattice-work dance.
This episode sacrifices a chocolate rabbit on a hot day to illustrate the movement of molecules in liquids.
No end of problems await the man who keeps fish for pets. Evaporation forces one to refill the tank. And he who thinks he can outsmart water vapor by keeping his fish in a refrigerated water tank, falls prey to Nature's countermeasure: condensation.
This lecture-packed show compares a balloon to a bunch of angry wasps to explain why gases expand and contract. It goes further than that. The expansion process also affects matter when it changes from one state to another.
Given three bathtubs of varying temperature, the star of the show ""blunts"" his feet so that they can't tell temperature. Sure they can't. The human body can only tell changes in temperature in comparison to what it had been used to. It's up to an independent device: a thermometer and the scale devised by Anders Celsius.
What is better to warm up a kiddie pool: a teacup of boiling water (100° Celsius) or a bucket of water at 50° Celsius? The answer tells you the difference between temperature and heat.
There's more to matter than the molecules we had spent discussing in the previous six shows. This fourth unit produces that first look at atoms.
An atom is made of mostly empty space. The electrons in an atom zoom around at fantastic speeds to create existence out of something that is mostly nothingness (at the atomic level).
All objects conduct heat, of course, but get a look at objects from the atomic level and you'll see why some objects conduct heat faster than others.
To set up audiences for The Convection of Heat, this question is posed: how can you fit eight junky cars into a small space?
How come an anchor is easier to lift if it's in the water than in open air? It lies in the density of an object versus a certain quantity of water.
Now that the Principle of Buoyancy is understood, one can fully grasp The Convection of Heat. This is demonstrated with a furnace not being in the attic of a house.
An animated Count Rumford demonstrates, for the first time, how heat can be used to produce energy. The show converts a Calorie as the amount produced from 4200 joules of work.
Why does somebody stand in the shade on a hot day? This show introduces the third method by which heat can be transferred: radiation.
Is it just your imagination that you are warmer when you wear dark clothes over white clothes? That actually sets off a reveliation on what color really is.