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Metro Detroit weather: Wet, cool Sunday evening before a summer-like Monday

Temps in the low 60s

Welcome to Sunday evening, Motown!

Scattered showers persist, Sunday evening and overnight, but summer-like weather returns Monday and Tuesday. Then, it feels like fall again with wet weather and lower temps starting Wednesday.

Roads will be wet for football fans returning from Ford Field and families going out to dinner. Scattered light to moderate showers remain possible with steady temps in the 60s.

Sunset is at 7:19 p.m. ET.

http://media.clickondetroit.com/photo/2016/08/03/introducing-4Zone_1470275289610_7688556_ver1.0.jpgSunday night will still have a chance of rain with an approaching warm front. Scattered thunderstorms are possible, as well. Before the front arrives, it will be cooler with overnight lows in the low 60s.

Much warmer air arrives Monday and Tuesday. Monday is Rosh Hashanah. Sunset is at 7:17 p.m. ET. Skies will be partly to mostly sunny. Afternoon temps reach the middle 80s.

Tuesday will be partly sunny and hotter than average, too. Daytime temps return to the mid-80s.

More autumn-like weather comes back Wednesday, with a cold front and showers and thunderstorms. Daytime temps will be near 75 degrees.

Thursday will be cooler with drivers. Afternoon temps will be in the low 60s.

Local 4Casters weather app

Remember to download the FREE Local4Casters weather app. Just go to your app store and search for "WDIV." Our local radar pops up as soon as you open the app. It is the perfect resource for traveling because you have the power to monitor 4 Live Radar anywhere in the nation.

Weather radar

Keep an eye out for severe weather alerts and the radar here:


About the Author:

Andrew Humphrey, CBM

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."