Marvel Television have released our first teaser for upcoming series Agatha All Along. Everyone’s favourite witch will get her own series on Disney + on September 18 this year.
Featuring a stellar cast including Joe Locke, Aubrey Plaza, Patti LuPone, Emma Caulfield, Debra Jo Rupp, Ali Ahn and Kathryn Hahn returning as Agatha Harkness.
The character first appeared in 2021’s Wandavision and quickly became a fan favourite thanks to her hilarious quirks and musical numbers, with a twist that shocked Marvel fans everywhere.
Agatha Harkness finds herself powerless after breaking out of her containment in Westview, New Jersey through the help of a goth teen. The teen wants Harkness to take him to the Witches’ Road, with the duo forming a coven of unlikely allies to journey down the road to reap the rewards the Road has to offer.
The first two episodes of Agatha All Along will premiere on September 18 on Disney+. The series will have nine episodes in total, with the finale airing on November 6, 2024.
You can catch up on Agatha in Wandavision now streaming on Disney +
Conclave is a masterful film showcasing the tension and intrigue of Catholic cardinals electing a new Pope. Ralph Fiennes excels as Cardinal Lawrence, navigating power struggles and moral dilemmas. The ensemble cast highlights flawed characters amid visually stunning cinematography, creating a gripping narrative that challenges perceptions and resonates with contemporary themes.
This week, Lenovo announced three new devices: the Legion Go S, featuring an ergonomic design and running on Windows 11; the black Legion Go S with Steam OS, priced at $499; and the prototype Legion Go 2, boasting advanced specs. Additionally, the Legion Tab, a powerful Android tablet, was introduced.
Den of Thieves 2: Pantera, set in France, follows Donnie, played by O’Shea Jackson Jr., as he attempts a massive diamond heist with the Panther Mafia. The sequel shifts to a slick style, diverging from the gritty tone of its predecessor, which may disappoint fans seeking the original's unique edge.