A Fruit Smoothie

What do you get when you blend a fruit and a drink? A fruit smoothie.

Now, eating fruit is one thing, and drinking a drink is another, but a fruit smoothie- that's something new, something exciting- and potentially useful!

Past the sheer wonder of exploring the unknown or discovering something new, there's a great practical benefit to be gained from understanding the world from different perspectives- at the same time.

You can combine different things in ways you never thought of before! Mmm... fruit smoothies.

Learning the Ingredients

Great fruit smoothies call for great experimentation!

We'll simply need to know more ingredients to try out more combinations.

But it's not like we're going to try out every possible combination. That's too slow.

So we'll listen to what others say is a good smoothie combination, and try a few original smoothies for ourselves.

And so we'll learn bit by bit what makes a great fruit smoothie, and prepare our next experiments so they end up tasting at least decent.

What's a Great Fruit Smoothie?

In order to make a great fruit smoothie, you'll need to learn what makes it great. Tasty. Healthy. Easy to make. Good, good.

But let's be more specific. How hot or cold should the smoothie be served? How are we going to change the fruit smoothie's temperature? How do we know that the fruit smoothie is at the right temperature? How do we set up an alarm that tells us when the fruit smoothie is ready?

When do we know our body is ready for the fruit smoothie? All these questions and more, to be answered in the next episode of-

Advanced Perception Scenario: Falling Apple

Consider the following scenario that uses language to describe something by creating and activating dormant associations between words and pictures/concepts in the reader's conscious and subconscious:

An apple drops from a tree. The apple-to-tree connection has biologically weakened- (ex. thin stem) and broken through the external environment (ex. strong winds). The fall is mainly due to gravitational downward force, but meanwhile, the ocean of air is applying atmospheric pressure on the apple and applying upward buoyant force equal to the weight of air that the apple is displacing. The apple is gaining kinetic energy to move downward.

As the apple moves through air, the air below the apple brushes against the surfaces of the apple, causing vibrations that excite the air and apple molecules. The apple and air molecules gain thermal energy, but quickly dissipates it to approach equilibrium with the surroundings according to the specific heat capacity of the materials involved. A sound of a particular waveform, frequency, and amplitude is transmitted through the air molecules to be potentially "heard" by organisms or machines that have the right sensors active. The apple slows down, having converted kinetic energy to other forms.

At the end of the fall, the apple transmits kinetic force to the ground and the ground transmits a reaction force on the apple. A varying compression region occurs inside the apple and parts of the apple get smushed off to the side. Both the apple and the ground vibrate during the impact, causing heat and sound again.

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