Unterschiede
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| Beide Seiten der vorigen Revision Vorhergehende Überarbeitung Nächste Überarbeitung | Vorhergehende Überarbeitung | ||
| electrical_engineering_and_electronics_1:block02 [2025/09/28 16:28] – mexleadmin | electrical_engineering_and_electronics_1:block02 [2026/01/10 13:30] (aktuell) – mexleadmin | ||
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| Zeile 1: | Zeile 1: | ||
| - | ====== Block 02 — Electric | + | ====== Block 02 — Electric |
| - | ===== Learning | + | ===== 2.0 Intro ===== |
| + | |||
| + | ==== 2.0.1 Learning | ||
| < | < | ||
| + | After this 90-minute block, you can | ||
| * Define electric charge $Q$ and explain its quantization in multiples of the elementary charge $e$. | * Define electric charge $Q$ and explain its quantization in multiples of the elementary charge $e$. | ||
| * Distinguish positive and negative charges, their interactions, | * Distinguish positive and negative charges, their interactions, | ||
| Zeile 12: | Zeile 15: | ||
| </ | </ | ||
| - | ===== 90-minute plan ===== | + | ==== 2.0.2 Preparation at Home ==== |
| + | |||
| + | Be aware, that EEE1 has 5 ECTS, i.e. an overall weekly load of about 8..10 hours (incl. our lecture in presence). \\ | ||
| + | So, preparation and follow-up shall take about 5..6 hours (incl. 1.5h tutorial, when you go there). | ||
| + | |||
| + | * Please read through the present chapter and write down anything you did not understand. | ||
| + | * I also gave some clips for more clarification under ' | ||
| + | I would assume, that reading my text first and watching the clips second once clarifying is needed shall work best. | ||
| + | |||
| + | For checking your understanding please do the following exercises: | ||
| + | * 1.5.1 | ||
| + | |||
| + | |||
| + | ==== 2.0.3 90-minute plan ==== | ||
| - Warm-up (5–10 min): | - Warm-up (5–10 min): | ||
| - Recall of SI units from Block 01; estimate “How many electrons per second flow at $1~\rm A$? | - Recall of SI units from Block 01; estimate “How many electrons per second flow at $1~\rm A$? | ||
| Zeile 24: | Zeile 40: | ||
| - Wrap-up (5 min): Summary and pitfalls. | - Wrap-up (5 min): Summary and pitfalls. | ||
| - | ===== Conceptual | + | ==== 2.0.4 Conceptual |
| <callout icon=" | <callout icon=" | ||
| - **Charge $Q$** is the fundamental “substance” of electricity, | - **Charge $Q$** is the fundamental “substance” of electricity, | ||
| Zeile 35: | Zeile 51: | ||
| ~~PAGEBREAK~~ ~~CLEARFIX~~ | ~~PAGEBREAK~~ ~~CLEARFIX~~ | ||
| - | ===== Core content | + | ===== 2.1 Core Content |
| - | ==== Electric | + | ==== 2.1.1 Electric |
| <WRAP right> | <WRAP right> | ||
| Zeile 70: | Zeile 86: | ||
| </ | </ | ||
| - | ==== Electric | + | ==== 2.1.2 Electric |
| An **electric current** arises when charges move in a preferred direction, e.g. by attraction and repulsion. | An **electric current** arises when charges move in a preferred direction, e.g. by attraction and repulsion. | ||
| The current is defined as | The current is defined as | ||
| Zeile 107: | Zeile 123: | ||
| </ | </ | ||
| - | ==== Electrodes ==== | + | ==== 2.1.3 Electrodes ==== |
| An electrode is a connection (or pin) of an electrical component. \\ | An electrode is a connection (or pin) of an electrical component. \\ | ||
| Looking at a component, the electrode is characterized as the homogenous part of the component, where the charges come in / move out (usually made out of metal). \\ | Looking at a component, the electrode is characterized as the homogenous part of the component, where the charges come in / move out (usually made out of metal). \\ | ||
| Zeile 124: | Zeile 140: | ||
| - | ==== Electric | + | ==== 2.1.4 Electric |
| Every rock on a mountain has a higher energy potential than a rock in the valley. As higher up and as more mass the rock has, as more energy is stored. The energy difference $\Delta W_{1,2}$ is given by the height difference $\Delta h_{1,2}$ | Every rock on a mountain has a higher energy potential than a rock in the valley. As higher up and as more mass the rock has, as more energy is stored. The energy difference $\Delta W_{1,2}$ is given by the height difference $\Delta h_{1,2}$ | ||
| Zeile 164: | Zeile 180: | ||
| - | ==== Comparison: Mechanics vs Electrics ==== | + | ==== 2.1.5 Comparison: Mechanics vs Electrics ==== |
| <WRAP group>< | <WRAP group>< | ||
| Zeile 206: | Zeile 222: | ||
| </ | </ | ||
| - | ===== Common | + | ===== 2.2 Common |
| * Mixing electron flow vs. conventional current. | * Mixing electron flow vs. conventional current. | ||
| * Misinterpreting current as “speed” rather than rate of charge flow. | * Misinterpreting current as “speed” rather than rate of charge flow. | ||
| * Given the definition, rechargeable batteries not have a fixed cathode / anode. Here, usually discharging the battery is considered. | * Given the definition, rechargeable batteries not have a fixed cathode / anode. Here, usually discharging the battery is considered. | ||
| - | ===== Exercises ===== | + | ===== 2.3 Exercises ===== |
| {{tagtopic> | {{tagtopic> | ||