Juliano Real Pacheco

Juliano Real Pacheco (born 6 April 1990), simply known as Juliano, is a Brazilian footballer who plays for Caxias. Mainly a defensive midfielder, he can also play as a left back.

Juliano
Personal information
Full name Juliano Real Pacheco
Date of birth (1990-04-06) 6 April 1990
Place of birth Pelotas, Brazil
Height 1.83 m (6 ft 0 in)
Playing position(s) Defensive midfielder
Club information
Current team
Caxias
Youth career
2001–2010 Internacional
Senior career*
Years Team Apps (Gls)
2010–2012 Internacional 0 (0)
2012Goiás (loan) 3 (0)
2013–2015 Goiás 20 (0)
2016 Fortaleza 17 (0)
2017 Figueirense 8 (0)
2018 CRB 0 (0)
2019– Caxias 4 (0)
2019São Bento (loan) 6 (0)
* Senior club appearances and goals counted for the domestic league only and correct as of 23:36, 2 March 2020 (UTC)

Club career

Born in Pelotas, Rio Grande do Sul, Juliano graduated with Internacional's youth setup. On 11 December 2011, after making his senior debuts in the year's Campeonato Gaúcho, he was loaned to Goiás for a year.[1]

Juliano made his professional debut on 3 August 2012, coming on as a late substitute for Walter in a 6–0 away routing of Ipatinga for the Série B championship.[2] Despite appearing rarely, he signed permanently with the club in December.[3]

On 15 May 2014 Juliano made his Série A debut, starting in a 2–0 home win against Botafogo.[4]

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gollark: Another is superdeterminism, which is sort of kind of where the particles "know" what properties of them will be measured in advance.
gollark: One resolution is nonlocal hidden variables, i.e. the particles have some faster-than-light-speed backchannel to communicate things.
gollark: Bell's theorem rules out "local hidden-variables" interpretations of quantum physics, meaning that quantum mechanics cannot, assuming some assumptions, be doing this by storing some extra secret metadata with particles.
gollark: As you will know in time, quantum QM mechanics has "Bell's theorem". This describes some correlations between measurements of entangled particles which QM predicts correctly (based on empirical tests) and classical physics doesn't.

References

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