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- 528×648×8 (7762 bytes) Diagram showing how Mercury's orbital period and rotational period are locked in a 3:2 resonance. {{GFDL-self}} English determination...(528 × 648 (8 KB)) - 06:16, 11 July 2024
- Self-made animation of Mercury's 3:2 orbital resonance, based on the [[Image:Mercury's orbital resonance.png|still image]] in the [[Mercury (planet)]] article...(366 × 450 (88 KB)) - 00:19, 9 January 2022
- DescriptionOrbital resonance of Mercury horizontal.gif English: Self-made animation of Mercury's 3:2 orbital resonance, based on File:Mercury's orbital resonance...(450 × 366 (102 KB)) - 06:22, 21 April 2021
- DescriptionMercury's orbital resonance.svg Diagram showing how Mercury's orbital period and rotational period are locked in a 3:2 resonance. Date 5 February...(400 × 400 (3 KB)) - 00:28, 5 October 2020
- 8): planetrotperiods1[n]=24*np.power(planetmasses1[n], -1/8) simple resonance locked approx for n in range(0, len( planetdistances1)): if(planetdistances1[n]<0...(1,600 × 200 (43 KB)) - 13:25, 25 February 2024
- mgases1) def find_nearest_resonances_by_external_1(aas1,ms1, aext1): ## NOK ## attempt to adjust distances of born planets by resonances planetab1=np.dstack((aas1...(3,500 × 700 (170 KB)) - 17:59, 3 May 2024
- (corresponding to the Sun, Mercury, Venus, Earth, Mars, Ceres, Jupiter, Saturn, Uranus, Neptune, Pluto). See orbital resonance for more about harmonic relationships...(2,688 × 1,520 (1.53 MB)) - 00:19, 4 September 2020