Difference between revisions of "Selftest: Introduction to vector algebra"
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| − | + | {{ExerciseNavigation|previous=[[Selftest: Cross product|Cross product]]|chapter=[[Vector algebra]]|article=[[Vector algebra]]|next=[[Selftest: Unit vector|Unit vector]]}} | |
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| − | + | <quiz display=simple> | |
| + | {'''Difference between scalars and vectors''' | ||
| − | + | Which statements are true? | |
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| + | ''(multiple answers possible)''} | ||
| + | -A vector is defined by its magnitude. | ||
| + | -A vector is defined by its direction. | ||
| + | +A vector is defined by its magnitude and its direction. | ||
| + | -All physical quantities are vectors. | ||
| + | ||Explanation: see [[Vector algebra|vector algebra]] | ||
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| − | + | {'''Meaning of vectors''' | |
| − | + | Which of the following physical quantities are vectorial? | |
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| + | ''(multiple answers possible)''} | ||
| + | - Time | ||
| + | - Temperature | ||
| + | + Velocity | ||
| + | + Acceleration | ||
| + | + Force | ||
| + | - Air preasure | ||
| + | ||A vectorial quantity is directed, so its '''magnitude''' as well as its '''direction''' are necessary for its complete description (see [[Vector algebra|vector algebra]]). | ||
| − | { ''' | + | { '''Magnitude and direction of vectors''' |
| − | + | Which of the following vectors have the same magnitude? | |
| − | '' | + | ''Fill in d, e or f in the following input fields.'' |
| type="{}" } | | type="{}" } | ||
| − | [[ | + | [[File:vectoralgebra_selftest3.png|400px|Vectors]] |
| − | + | Vector <math>\vec{\mathbf{a}}</math> and vector { f } have the same magnitude. | |
| − | + | Vector <math>\vec{\mathbf{b}}</math> and vector { e } have the same magnitude. | |
| − | + | Vector <math>\vec{\mathbf{c}}</math> and vector { d } have the same magnitude. | |
| − | || | + | ||The magnitude of a vector corresponds to its length. For further information see [[Vector algebra|vector algebra]]. |
| − | {''' | + | {'''Position, free and constrained vectors''' |
| − | + | Fill in the following words: | |
| − | + | ''free vector, constrained vector, position vector'' | |
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| − | '' | ||
| type="{}" } | | type="{}" } | ||
| − | + | A { free vector } does not change its properties (magnitude and direction), if it is shifted parallel to itself so that its startpoint is translated to an arbitrary point in space. If the properties of a vector are constrained to a certain point, then it is a { constrained vector }. A vector pointing from a fixed origin to a certain point in space is called { position vector }. | |
</quiz> | </quiz> | ||
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| + | [[Category:Selftest]] | ||
| + | [[Category:Vectors]] | ||
Latest revision as of 17:35, 30 January 2015
| ← Previous exercise: Cross product | Exercises for chapter Vector algebra | Article: Vector algebra | Next exercise: Unit vector → |
