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WHAT’S THE BASIC PROBLEM?. WHAT’S THE BASIC PROBLEM?. Source of Energy: SUN. WHAT’S THE BASIC PROBLEM?. Target Planet of Interest: EARTH. Source of Energy: SUN. WHAT’S THE BASIC PROBLEM?. 1. About 92.6 million miles (150 million Km). Target Planet of Interest: EARTH.
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WHAT’S THE BASIC PROBLEM? Source of Energy: SUN
WHAT’S THE BASIC PROBLEM? Target Planet of Interest: EARTH Source of Energy: SUN
WHAT’S THE BASIC PROBLEM? 1. About 92.6 million miles (150 million Km) Target Planet of Interest: EARTH Source of Energy: SUN
WHAT’S THE BASIC PROBLEM? 2. Target rotating anti-clockwise around own axis once every 24 hrs. 1. About 92.6 million miles (150 million Km) Target Planet of Interest: EARTH Source of Energy: SUN
WHAT’S THE BASIC PROBLEM? 2. Target rotating anti-clockwise around own axis once every 24 hr. 1. About 92.6 million miles (150 million Km) 3. Target revolving around source once every 365.25 dy Target Planet of Interest: EARTH Source of Energy: SUN
MECHANISMS OF ENERGY TRANSFER 1. CONDUCTION: 2. CONVECTION: 3. ADVECTION: 4. RADIATION:
MECHANISMS OF ENERGY TRANSFER 1. CONDUCTION: Energy transfer by means of the “touching “ of molecules. 2. CONVECTION: 3. ADVECTION: 4. RADIATION:
MECHANISMS OF ENERGY TRANSFER 1. CONDUCTION: Energy transfer by means of the “touching “ of molecules. 2. CONVECTION: Energy transfer by means of the internal mixing of a medium. 3. ADVECTION: 4. RADIATION:
MECHANISMS OF ENERGY TRANSFER 1. CONDUCTION: Energy transfer by means of the “touching “ of molecules. 2. CONVECTION: Energy transfer by means of the internal mixing of a medium. 3. ADVECTION: Energy transfer by means of the horizontal movement of a medium from one environment to another. 4. RADIATION:
MECHANISMS OF ENERGY TRANSFER 1. CONDUCTION: Energy transfer by means of the “touching “ of molecules. 2. CONVECTION: Energy transfer by means of the internal mixing of a medium. 3. ADVECTION: Energy transfer by means of the horizontal movement of a medium from one environment to another. 4. RADIATION: Energy transfer by means of the electrical and magnetic fields.
CONDUCTION LOWER ENERGY
LOWER ENERGY HIGHER ENERGY
LOWER ENERGY HIGHER ENERGY ENERGY TRANSFER BY CONTACT
WATER MOLECULES WARM – VIBRATE MORE – REQUIRE MORE SPACE BETWEEN THEM. CONDUCTION THROUGH METAL HEAT
WARM LESS DENSELY PACKED MOLECULES RISE UP TO SURFACE. WATER MOLECULES WARM – VIBRATE MORE – REQUIRE MORE SPACE BETWEEN THEM. CONDUCTION THROUGH METAL HEAT
WARM, LESS DENSELY PACKED MOLECULES RISE UP TO SURFACE. COOL, MORE DENSELY PACKED MOLECULES SINK TO BOTTOM. WATER MOLECULES WARM – VIBRATE MORE – REQUIRE MORE SPACE BETWEEN THEM. CONDUCTION THROUGH METAL HEAT
ATMOSPHERE 5 – 8 miles EARTH’S ATMOSPHERE HEATS FROM THE BASE! GROUND
Rising Cumulus Clouds ATMOSPHERE 5 – 8 miles Rain EARTH’S ATMOSPHERE HEATS FROM THE BASE!
ADVECTION FRIDGE POT OF BOILING WATER STOVE TOP
FRIDGE POT OF BOILING WATER STOVE TOP
RADIATION - - + - -
- - + - -
- - - + - - - -
- - - - + - - - -
GENERATION OF ELECTRICITY MOTION MAGNETIC FIELD ELECTRICAL FIELD
GENERATION OF ELECTRICITY MOTION MAGNETIC FIELD ELECTRICAL FIELD
Coal, Oil, Gas Nuclear, Hydropower Biomass, Geothermal MOTION MAGNETIC FIELD ELECTRICAL FIELD
STARTER MOTOR MOTION MAGNETIC FIELD ELECTRICAL FIELD
STARTER MOTOR MOTION MAGNETIC FIELD ELECTRICAL FIELD
STARTER MOTOR Engine Turns Over MOTION MAGNETIC FIELD ELECTRICAL FIELD CAR BATTERY
ANSWER TO BASIC PROBLEM #! ? 1. CONDUCTION: Energy transfer by means of the “touching “ of molecules. 2. CONVECTION: Energy transfer by means of the internal mixing of a medium. 3. ADVECTION: Energy transfer by means of the horizontal movement of a medium from one environment to another. 4. RADIATION: Energy transfer by means of the electrical and magnetic fields.
MECHANISMS OF ENERGY TRANSFER 1. CONDUCTION: Energy transfer by means of the “touching “ of molecules. ? 2. CONVECTION: Energy transfer by means of the internal mixing of a medium. 3. ADVECTION: Energy transfer by means of the horizontal movement of a medium from one environment to another. 4. RADIATION: Energy transfer by means of the electrical and magnetic fields.
MECHANISMS OF ENERGY TRANSFER 1. CONDUCTION: Energy transfer by means of the “touching “ of molecules. 2. CONVECTION: Energy transfer by means of the internal mixing of a medium. ? 3. ADVECTION: Energy transfer by means of the horizontal movement of a medium from one environment to another. 4. RADIATION: Energy transfer by means of the electrical and magnetic fields.
MECHANISMS OF ENERGY TRANSFER 1. CONDUCTION: Energy transfer by means of the “touching “ of molecules. 2. CONVECTION: Energy transfer by means of the internal mixing of a medium. 3. ADVECTION: Energy transfer by means of the horizontal movement of a medium from one environment to another. 4. RADIATION: Energy transfer by means of the electrical and magnetic fields.
MECHANISMS OF ENERGY TRANSFER 1. CONDUCTION: Energy transfer by means of the “touching “ of molecules. 2. CONVECTION: Energy transfer by means of the internal mixing of a medium. 3. ADVECTION: Energy transfer by means of the horizontal movement of a medium from one environment to another. ? 4. RADIATION: Energy transfer by means of the electrical and magnetic fields.