Peyton Manning hits his tee shot on the third gap through the Pro-Am of The Memorial Tournament Presented By Nationwide at Muirfield Village Golf Club on May 30, 2018 in Dublin, Ohio.
Andy Lyons | Getty Images
Turner Sports’ The Match 3 is formally set.
The well-liked movie star golf outing will characteristic Phil Mickelson, Charles Barkley, Stephen Curry and Peyton Manning and air on WarnerMedia’s TNT community on Nov. 27 at 3 p.m. ET.
The outing, titled “The Match: Champions for Change” will “uniquely contribute toward and highlight diversity, equality and inclusion through donations to Historically Black Colleges and Universities (HBCUs), while raising awareness and spotlighting opportunities for diversity and equality in sports,” the community mentioned in its launch.
The Match 2 was one of many most-watched sporting occasions through the pandemic, attracting a median of 5.eight million viewers on May 24 and peaking at 6.3 million viewers. The second installment of the golf occasion raised $20 million for Covid-19 aid efforts.
Stephen Curry performs a shot throughout spherical two of the Ellie Mae Classic at TCP Stonebrae on August 4, 2017 in Hayward, California.
Lachlan Cunningham | Getty Images
The Match 2 additionally featured Tiger Woods and National Football League quarterback Tom Brady, alongside Manning and Mickelson. The Match 3 will pair Barkley and Mickelson towards Curry and Manning.
“I’m excited to return for the third edition of Capital One’s The Match and get out on the course with these three legendary athletes,” mentioned Mickelson in a press release. “While we may need a handicap for Chuck, I’m looking forward to playing with Peyton and Stephen and to help raise money for another important cause.”
Sports betting firm DraftKings will function “content integration partner” for The Match 3, and Turner’s Bleacher Report app will “provide exclusive live content” for the occasion.
Other company sponsors embody Michelob Ultra and Oxigen water. Curry not too long ago turned an fairness associate within the Oxigen model.