19.5: Impulso angular y cambio en el momento angular

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Si hay un par total aplicado\(\vec{\tau}_{S}\) alrededor de un punto\(S\) en un intervalo de tiempo\(\Delta t=t_{f}-t_{i}\), entonces el par aplica un impulso angular alrededor de un punto\(S\), dado por

\[\overrightarrow{\mathbf{J}}_{S}=\int_{t_{i}}^{t_{f}} \vec{\tau}_{S} d t \nonumber \]

Debido a que\(\vec{\tau}_{S}=d \overrightarrow{\mathbf{L}}_{S}^{\text {total }} / d t\) el impulso angular sobre\(S\) es igual al cambio en el momento angular alrededor\(S\),

\[\overrightarrow{\mathbf{J}}_{S}=\int_{t_{i}}^{t_{f}} \vec{\tau}_{S} d t=\int_{t_{i}}^{t_{f}} \frac{d \overrightarrow{\mathbf{L}}_{S}}{d t} d t=\Delta \overrightarrow{\mathbf{L}}_{S}=\overrightarrow{\mathbf{L}}_{S, f}-\overrightarrow{\mathbf{L}}_{S, i} \nonumber \]

Este resultado es el impulso de rotación de analógico a lineal, que es igual al cambio de momento,

\[\overrightarrow{\mathbf{I}}=\int_{t_{i}}^{t_{f}} \overrightarrow{\mathbf{F}} d t=\int_{t_{i}}^{t_{f}} \frac{d \overrightarrow{\mathbf{p}}}{d t} d t=\Delta \overrightarrow{\mathbf{p}}=\overrightarrow{\mathbf{p}}_{f}-\overrightarrow{\mathbf{p}}_{i} \nonumber \]

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