Metro Detroit weather: Cloudy, chilly Thanksgiving evening

Temps in the low 40s

Metro Detroit weather forecast Nov. 26, 2020 -- 6 p.m. Update
Metro Detroit weather forecast Nov. 26, 2020 -- 6 p.m. Update

DETROIT – Happy Thanksgiving, Motown!

Clouds continue to hang over Detroit and all of Southeast Michigan the rest of the holiday. It remains dry and becomes chillier overnight. Friday will be dry, gray and chilly. Saturday and Sunday will be sunnier. Snow could have a big impact early next week.

Thursday evening will be cloudy and chilly. Temperatures fall only slightly from the middle and upper 40s to the low 40s.

Sunset is at 5:04 p.m. ET.

Thursday night will remain overcast, which will keep the weather from getting drastically colder. Temperatures hover in the upper 30s and low 40s overnight.

Sunrise is at 7:39 a.m. ET.

Friday will be mostly cloudy and chilly. Highs will be in the upper 40s.

Saturday and Sunday will be sunnier and remain chilly. Nighttime and morning temps will be in the low 30s. Afternoon temps will be near 45 degrees, Saturday, and near 50 degrees, Sunday.

Monday and Tuesday have a good chance so slippery weather. It’s several days away, so the computer models are not lining up, yet. At best, a storm brings a rain-snow mix is Monday during the day and turns to scattered snow Monday night and Tuesday morning as it pulls away Tuesday afternoon. That’s the European model. A separate model, called GFS, brings the rain-snow mix Monday and has the storm parking itself over the Great Lakes all day Tuesday.

Remember to download the FREE Local4Casters weather app -- it’s easily one of the best in the nation. Just search your app store under WDIV and it’s right there available for both iPhones and Androids!

About the Author:

Andrew Humphrey is an Emmy Award winning meteorologist, and also an AMS Certified Broadcast Meteorologist (CBM). He has a BSE in Meteorology from the University of Michigan and an MS in Meteorology from the Massachusetts Institute of Technology, where he wrote his thesis on "The Behavior of the Total Mass of the Atmosphere."