Tag Archives: planet

2020, October 6: Venus Steps Through Leo

Venus in Leo, October 6, 2020
2020, October 6: Venus shines brightly from the eastern sky before sunrise. This morning it is 4.1° to the lower left of Regulus and 2.5° to the upper right of Rho Leonis (ρ Leo on the chart.)

Morning Star Venus steps through Leo during October in the eastern sky near the star Regulus.

by Jeffrey L. Hunt

Brilliant Venus is “that bright star” in the eastern sky before sunrise during October.

The planet shines from in front of the stars of Leo. This morning it was 4.1° to the lower left of Regulus and 2.5° to the upper right of Rho Leonis (ρ Leo on the chart.)

See our summary about Venus during October 2020 and the feature article  about Venus as a Morning Star.

Each morning look at Venus and the nearby starfield with a binocular as the planet steps away from Regulus and toward ρ Leo.

Watch Venus continue to move through Leo during most of October.

The moon is in the region with Venus and Regulus beginning October 12.

Read more about the planets during October.

Recent Articles

Venus and the moon, June 29, 2020.

2020, October 25: Morning Star Venus, Evening Moon, Planets

The brilliant Morning Star Venus continues to step through Virgo. It is that “bright star in the eastern sky” before sunrise. This morning Venus is near Beta Virginis. In the evening sky, the gibbous moon is between Mars and Jupiter, and near the star Fomalhaut. Mars is in the east-southeast. Jupiter and Saturn are in the east-southeast.

Orion Rising, September 4, 2020

2020, October 24: Morning Star Venus, Evening Planets Mars, Jupiter, Saturn

Bright Morning Star Venus continues to sparkle in the eastern sky before sunrise. It shines from in front of the stars of Virgo. Evening planet Mars appears in the eastern sky while Jupiter and Saturn are in the south-southwest. The bright gibbous moon shines from the stars of Capricornus.

Astronomy

2020: Daylight Saving Time Commentary

In this commentary is a different idea about year-round daylight time, based on astronomical concepts for the mid-northern latitudes. Year-round or not, a different approach may yield better results.