Gaius Porcius Cato (tribune)

Gaius Porcius Cato (1st century BC) was a distant relative, probably a second cousin, of the more famous Marcus Porcius Cato, called Cato the Younger. This Cato was probably the son of Gaius Porcius Cato, the homonymous consul of 114 BC, being then the grandson of Marcus Porcius Cato Licinianus and thereby the great-grandson of the famous Cato the Censor, often called Cato the Elder.

Gaius Porcius Cato was a client (an adherent) of triumvir Marcus Licinius Crassus and was an ally of Clodius (Publius Clodius Pulcher) the infamous Patrician tribune of the plebs, in his street gang war against Milo (Titus Annius Milo). He attacked Publius Cornelius Lentulus Spinther and Gnaeus Pompeius Magnus (Pompey the Great) in 59 BC by prosecuting a follower, Gabinius, for ambitus (political corruption) but was thwarted by a Pompeian praetor and was chased from the rostra by an angry crowd. In 57 BC he spoke against delaying the aedelician elections (Clodius was standing and Milo wanted the delay to allow a prosecution).

Tribunate

Cato served as a plebeian tribune himself in 56 BC, and in his political activities, he was usually associated with his colleague Nonius Sufenas. During their tribunate, they worked for the so-called First triumvirate of Gaius Julius Caesar, Crassus and Pompey, now allied with his benefactor Crassus, and delayed the comitia to promote the election of Pompey and Crassus as consuls. The following year, after his tribunate, Cato and Sufenas were both accused of procedural violations. Although Cato's prosecutor in the trial was the future Caesarian historian Gaius Asinius Pollio (consul 40 BC) they were both acquitted. Cato won a praetorship in 55 BC.

gollark: See, it's important to recognize that distinction.

gollark: What do you mean you "perceive" time as discrete? You mean you *arbitrarily think so*, or what?

gollark: Quite a lot.

gollark: > The Planck time is the unique combination of the gravitational constant G, the special-relativistic constant c, and the quantum constant ħ, to produce a constant with dimension of time. Because the Planck time comes from dimensional analysis, which ignores constant factors, there is no reason to believe that exactly one unit of Planck time has any special physical significance. Rather, the Planck time represents a rough time scale at which quantum gravitational effects are likely to become important. This essentially means that while smaller units of time can exist, they are so small their effect on our existence is negligible. The nature of those effects, and the exact time scale at which they would occur, would need to be derived from an actual theory of quantum gravity.

gollark: Oh, no, never mind, that's not it.

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