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| train:lectures:siderealtime [2024/03/18 14:44] – Roy Prouty | train:lectures:siderealtime [2024/03/18 16:10] (current) – Roy Prouty | ||
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| ===COS(d)=== | ===COS(d)=== | ||
| - | Since DEC($\delta$) is measured from the CEq, we find that lines of constant DEC trace out concentric circles on the CNP and CSP. The radius of these circles of constant DEC decrease with $\cos{\delta}$. So at $\delta=\pm 90^\circ$ (at either CNP or CSP) the circle of constant DEC is a point and at $\delta=0^\circ$ (along the CEq), the circumference of the circle of constant DEC is maximized. In the same way, the rate of motion along these circles of constant | + | Since DEC($\delta$) is measured from the CEq, we find that lines of constant DEC trace out concentric circles on the CNP and CSP. The radius of these circles of constant DEC decrease with $\cos{\delta}$. So at $\delta=\pm 90^\circ$ (at either CNP or CSP) the circle of constant DEC is a point and at $\delta=0^\circ$ (along the CEq), the circumference of the circle of constant DEC is maximized. In the same way, the rate of motion along these circles of constant |
| + | ===Challenge=== | ||
| + | The next time you are participating in an Observing Session, calculate how long it will take for a star (not near the CNP) to move from one side of the frame to the other side. | ||
| + | ---- | ||
| + | Written by Roy Prouty 20240318\\ | ||
| + | Reviewed by | ||