⚫️Electrons have a binary property of color, being either black or white.
💥Electrons also have a binary property of hardness, being either hard or soft.
📦Color and hardness can be measured using specialized boxes with different apertures.
❓These experiments challenge preconceived notions about the properties of electrons.
🔬The nature of electrons raises questions about their fundamental properties.
Can electrons have other colors?
—No, electrons can only be black or white.
Do all electrons have the same color and hardness?
—Yes, all electrons have the same binary properties of color and hardness.
How are color and hardness measured?
—Color is determined by the position of the electron in a color box, while hardness is determined by the output port of a hardness box.
Can color and hardness change?
—No, color and hardness are fixed properties of electrons.
What implications does this experiment have for our understanding of electrons?
—This experiment challenges conventional understanding and raises questions about the nature and fundamental properties of electrons.
10:30The most unsettling experiments involve electrons and their binary properties of color and hardness.
12:00Color and hardness can be measured using specialized boxes, each with different apertures.
13:20These experiments challenge preconceived notions and raise questions about the nature and fundamental properties of electrons.
