420x6/7 = 360 starting amount
420-360 = 60 interest
60/360 = 16.67%
Answer:
Use the map of Georgia to consider different applications of von Thünen’s model.Assuming an absence of topographical features, in one to two sentences describe how different types of farming would be arranged around Atlanta, according to von Thünen’s model.In 2–3 sentences, describe how the site factors near Savannah would affect the distribution of types of farming around Savannah’s city center, according to von Thünen’s model.
Explanation:
Use the map of Georgia to consider different applications of von Thünen’s model.Assuming an absence of topographical features, in one to two sentences describe how different types of farming would be arranged around Atlanta, according to von Thünen’s model.In 2–3 sentences, describe how the site factors near Savannah would affect the distribution of types of farming around Savannah’s city center, according to von Thünen’s model.Use the map of Georgia to consider different applications of von Thünen’s model.Assuming an absence of topographical features, in one to two sentences describe how different types of farming would be arranged around Atlanta, according to von Thünen’s model.In 2–3 sentences, describe how the site factors near Savannah would affect the distribution of types of farming around Savannah’s city center, according to von Thünen’s model.
Answer:
Visible Light Absorption
Atoms and molecules contain electrons. It is often useful to think of these electrons as being attached to the atoms by springs. The electrons and their attached springs have a tendency to vibrate at specific frequencies. Similar to a tuning fork or even a musical instrument, the electrons of atoms have a natural frequency at which they tend to vibrate. When a light wave with that same natural frequency impinges upon an atom, then the electrons of that atom will be set into vibrational motion. (This is merely another example of the resonance principle introduced in Unit 11 of The Physics Classroom Tutorial.) If a light wave of a given frequency strikes a material with electrons having the same vibrational frequencies, then those electrons will absorb the energy of the light wave and transform it into vibrational motion. During its vibration, the electrons interact with neighboring atoms in such a manner as to convert its vibrational energy into thermal energy. Subsequently, the light wave with that given frequency is absorbed by the object, never again to be released in the form of light. So the selective absorption of light by a particular material occurs because the selected frequency of the light wave matches the frequency at which electrons in the atoms of that material vibrate. Since different atoms and molecules have different natural frequencies of vibration, they will selectively absorb different frequencies of visible light.
Answer:
paying for an employee to take college courses
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