Time Scanners
Time Scanners is a program that aired on PBS with hosts Dallas Campbell and Steve Burrows. Time Scanners laser scans historical buildings with the hope of investigating various features about them. Time Scanners debuted on July 1, 2014, on PBS as a three-part series.[1] It currently airs in reruns on the National Geographic Channel with 10 minutes removed for commercials.
Time Scanners | |
---|---|
Starring | Dallas Campbell, Steve Burrows |
Country of origin | United States |
No. of seasons | 2 |
No. of episodes | 6 (list of episodes) |
Production | |
Running time | 52 minutes |
Production company(s) | Atlantic Productions |
Release | |
Original network | PBS |
Original release | July 1, 2014 – December 23, 2015 |
External links | |
Official website | |
Production website |
Series overview
Season | Episodes | Originally aired | ||
---|---|---|---|---|
First aired | Last aired | |||
1 | 3 | July 1, 2014 | July 15, 2014 | |
2 | 3 | December 9, 2015 | December 23, 2015 |
Episodes
Season 1
No. in series |
No. in season |
Title | Original air date | U.S. viewers | |
---|---|---|---|---|---|
1 | 1 | "Egyptian Pyramids" | July 1, 2014 | N/A | |
The Time Scanners visit the Egyptian Pyramids. | |||||
2 | 2 | "St Paul’s Cathedral" | July 8, 2014 | N/A | |
The Time Scanners visit St Paul's Cathedral in London. | |||||
3 | 3 | "Petra" | July 15, 2014 | N/A | |
The Time Scanners visit the ancient city of Petra in Jordan. |
Season 2
No. in series |
No. in season |
Title | Original air date | U.S. viewers | |
---|---|---|---|---|---|
4 | 1 | "Machu Picchu" | December 9, 2015 | N/A | |
The Time Scanners visit Machu Picchu in Peru. | |||||
5 | 2 | "Colosseum" | December 16, 2015 | N/A | |
The Time Scanners visit the Colosseum in Rome. | |||||
6 | 3 | "Jerusalem" | December 23, 2015 | N/A | |
The Time Scanners visit Jerusalem in Israel. |
gollark: I can't say I didn't not unexpect this.
gollark: Is Macron just SUBLEQ now?
gollark: Well, the matrix way lets you get fib(n) in O(log n) time, thus good.
gollark: It has 128-bit decimal floats with each component as quaternary posits, grouped into pairs to form complex numbers in all circumstances.
gollark: https://discord.com/channels/346530916832903169/348702212110680064/863472225063272448
References
External links
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