A Family Secret (Upstairs, Downstairs)

A Family Secret was the fourth episode of the third series of the British television series, Upstairs, Downstairs. The episode is set in 1912.

"A Family Secret"
'Upstairs, Downstairs' episode
Episode no.Season 3
Episode 4
Directed byRaymond Menmuir
Written byAlfred Shaughnessy
Original air date17 November 1973
Guest appearance(s)

Meg Wynn Owen (Hazel Forrest)
Valerie White (Mrs. Forrest)
Leonard Trolley (Mr. Arthur Forrest)

Cast

Regular cast
Guest cast

Plot

James is immediately attracted to Hazel Forrest. The class divide between James and Hazel causes early conflicts with Hazel's parents, the Bellamys' staff and in the marriage. He wants to marry her. After about seven months of courting, James proposes in November, but Hazel declines his proposal and tearfully refuses him. She doesn't tell him that she was married before to a violent alcoholic named Patrick O'Connor. Hazel's sad past is now the Forrest's family secret. James don't know why she refuses him. This causes Hazel's father, Arthur Forrest, to visit James. He informs James of Forrest's family secret and reveals the family secret. He explains that Hazel was previously married to a drunk, Patrick O'Connor, who beat her. They divorced and Hazel moved back in with her parents. Mr. Forrest wants his daughter to be happy, while the prickly Mrs. Forrest is sure the Bellamys would never accept Hazel as a divorced woman (divorce being the shocking, stigmatic thing it was in 1912). After Hazel's initially declining James' proposal, James asks Hazel again, and after talking and James letting Hazel know his own sister Elizabeth is a divorced and remarried woman, she accepts his second proposal. They marry in late 1912 or early 1913, and honeymoon in Paris.[1][2]

gollark: Of course. It's Haskell.
gollark: *sigh*
gollark: Although Python does let you use unicode characters in identifiers.
gollark: In Haskell variable naming is easy, because there are *tons* of letters of the alphabet and you can use `'` too.
gollark: Linear programming isn't even NP-hard or whatever!

References

This article is issued from Wikipedia. The text is licensed under Creative Commons - Attribution - Sharealike. Additional terms may apply for the media files.