book:chap3:3.4_constants_of_motion_cm
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| book:chap3:3.4_constants_of_motion_cm [2024/12/11 15:31] – [3.4.2 Work and total energy] jv | book:chap3:3.4_constants_of_motion_cm [2024/12/16 15:32] (current) – jv | ||
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| Line 174: | Line 174: | ||
| \] | \] | ||
| </ | </ | ||
| - | + | ||
| <wrap lo>** Remark 3.5. ** | <wrap lo>** Remark 3.5. ** | ||
| + | Here, $\mathbf F (t)$ denotes the force that is acting on the particle at time $t$, irrespective of how it emerges. Specifically, | ||
| + | </ | ||
| + | |||
| + | <wrap lo>** Remark 3.6. ** | ||
| The scalar product $\mathbf F \cdot \mathrm{d}\mathbf q$ or $P(t) = \mathbf F (t) \cdot \dot{\mathbf q} (t)$ | The scalar product $\mathbf F \cdot \mathrm{d}\mathbf q$ or $P(t) = \mathbf F (t) \cdot \dot{\mathbf q} (t)$ | ||
| singles out only the action of the force parallel to the trajectory. | singles out only the action of the force parallel to the trajectory. | ||
| Line 190: | Line 194: | ||
| </ | </ | ||
| - | <wrap lo # | + | <wrap lo # |
| The result of the integral does not rely on the parameterization of the path by time. | The result of the integral does not rely on the parameterization of the path by time. | ||
| For instance mathematicians prefer to use the length $\ell$ of the path. | For instance mathematicians prefer to use the length $\ell$ of the path. | ||
| Line 203: | Line 207: | ||
| </ | </ | ||
| - | <wrap lo # | + | <wrap lo # |
| Line integrals are also used to determine the length, $L$, of a path in space. | Line integrals are also used to determine the length, $L$, of a path in space. | ||
| After all, the length amounts to the time integral of the speed, $\dot\ell(t)$, | After all, the length amounts to the time integral of the speed, $\dot\ell(t)$, | ||
| Line 239: | Line 243: | ||
| </ | </ | ||
| - | <wrap lo>** Remark 3.8. ** | + | <wrap lo>** Remark 3.9. ** |
| Conservative forces only depend on position, $\mathbf F = \mathbf F (\mathbf q)$. | Conservative forces only depend on position, $\mathbf F = \mathbf F (\mathbf q)$. | ||
| They neither explicitly depend on time nor on the velocity $\mathbf q$. | They neither explicitly depend on time nor on the velocity $\mathbf q$. | ||
| Line 287: | Line 291: | ||
| **qed** | **qed** | ||
| - | <wrap lo>** Remark 3.9. ** | + | <wrap lo>** Remark 3.10. ** |
| The work performed along a closed path vanishes for conservative forces. | The work performed along a closed path vanishes for conservative forces. | ||
| After all, in that case $\mathbf q_1 = \mathbf q_0$ such that $W = \Phi (\mathbf q_0) - \Phi( \mathbf q_1) = 0$. | After all, in that case $\mathbf q_1 = \mathbf q_0$ such that $W = \Phi (\mathbf q_0) - \Phi( \mathbf q_1) = 0$. | ||
| </ | </ | ||
| - | <wrap lo>** Remark 3.10. ** | + | <wrap lo>** Remark 3.11. ** |
| The potential in itself is not an observable. ((An // | The potential in itself is not an observable. ((An // | ||
| One can only observe the work, which is the potential difference between two positions, | One can only observe the work, which is the potential difference between two positions, | ||
| Line 343: | Line 347: | ||
| </ | </ | ||
| - | <wrap lo>** Remark 3.11. ** | + | <wrap lo>** Remark 3.12. ** |
| According to [[#Thm_work |Theorem 3.3]] differences of the value of the potential between two positions | According to [[#Thm_work |Theorem 3.3]] differences of the value of the potential between two positions | ||
| amount to the work performed in the potential. | amount to the work performed in the potential. | ||
| Line 360: | Line 364: | ||
| </ | </ | ||
| - | <WRAP lo>** Remark 3.12. ** | + | <WRAP lo>** Remark 3.13. ** |
| One can make use of the properties of scalar products to reduce the computational work | One can make use of the properties of scalar products to reduce the computational work | ||
| to determine the force for a given potential | to determine the force for a given potential | ||
book/chap3/3.4_constants_of_motion_cm.1733927504.txt.gz · Last modified: 2024/12/11 15:31 by jv