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183_notes:model_of_solids [2021/02/18 20:33] – [Modeling tension microscopically] stumptyl | 183_notes:model_of_solids [2021/03/13 19:28] – [Tension] stumptyl | ||
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===== Matter & Models of Solids ===== | ===== Matter & Models of Solids ===== | ||
- | Until now, you have read (primarily) about forces that result from the gravitational interaction in both its [[183_notes: | + | Until now, you have read (primarily) about forces that result from the gravitational interaction in both its [[183_notes: |
+ | ** | ||
==== Lecture Video ==== | ==== Lecture Video ==== | ||
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All matter is made up of atoms, which (as you know) are in turn made up of a dense positively charge nucleus (with a $\sim1\times10^{-15}m$ radius) and a sparse, negatively charged electron cloud (with a $\sim1\times10^{-10}m$ radius). The interaction between atoms is due primarily to the charges in the atoms. We observe that when two atoms are near each other, the long range electrical forces cause them to attract, but only up to a point. When atoms are pushed too close together, they begin to repel each other. | All matter is made up of atoms, which (as you know) are in turn made up of a dense positively charge nucleus (with a $\sim1\times10^{-15}m$ radius) and a sparse, negatively charged electron cloud (with a $\sim1\times10^{-10}m$ radius). The interaction between atoms is due primarily to the charges in the atoms. We observe that when two atoms are near each other, the long range electrical forces cause them to attract, but only up to a point. When atoms are pushed too close together, they begin to repel each other. | ||
- | [{{ 183_notes:mi3e_04-003.png? | + | [{{ 183_notes:horizontal_springsystems_compression.png? |
These observations are not unlike those we observe with two ends of a spring (Figure to the right). Pulling the ends apart (past the springs relaxed length) stretches the spring, which results in a force by the spring " | These observations are not unlike those we observe with two ends of a spring (Figure to the right). Pulling the ends apart (past the springs relaxed length) stretches the spring, which results in a force by the spring " | ||
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==== Tension ==== | ==== Tension ==== | ||
- | [{{ 183_notes:mi3e_04-008.png? | + | [{{ 183_notes:phy_freebody_3.png? |