Probe

I claim: 1 . A probe for determining a swirl angle of exhaust gasses of a turbine engine, the probe comprising: an elongate body with fastening means, the elongate body having: a tip at a proximal end of the elongate body and a head at a distal end of the elongate body, at least three passageways extending from the tip to the head, each of a first and second of the passageways having an aperture at the tip and a port at the head which is connectable to a respective first pressure sensor and second pressure sensor, a third of the passageways extending from the tip to the head and having an aperture at the tip facing away from the aperture of the first passageway and an aperture of the second passageway, the third passageway facing a rearward direction and having a port at the head which is connectable to a third pressure sensor, wherein the rearward direction is a direction facing toward a rear of the turbine engine in operation. 2 . The probe as claimed in claim 1 , wherein the third passageway is used to provide a total pressure reading. 3 . The probe as claimed in claim 1 , wherein the head is also provided with positioning features. 4 . The probe as claimed in claim 1 , wherein the tip is shaped to optimise aerodynamic impact of the tip. 5 . The probe as claimed in claim 1 , wherein all of the at least three of the passageways have equal cross sections. 6 . The probe as claimed in claim 1 , wherein a cross-sectional area of each of the at least three passageways changes between the tip and the head of the probe. 7 . The probe as claimed in claim 1 , wherein the first pressure sensor, the second pressure sensor, and the third pressure sensor are connected to a CPU, which is able to determine the swirl angle of annulus gas. 8 . A gas turbine engine featuring the probe according to claim 1 , wherein the probe is located downstream of a turbine section and is located through a passageway extending between a combustor casing and an outer anulus, the probe being configured, so that only the tip protrudes through the combustor casing and into an exhaust path. 9 . The gas turbine engine according to claim 8 , wherein the probe is fastened to the combustor casing using a bolted flange. 10 . The gas turbine engine according to claim 8 , wherein a seal is provided between the tip and the combustor casing. 11 . The gas turbine engine according to claim 8 , wherein the seal is one of a piston ring seal, an O-ring seal, a braid seal, a bolted flange or a borescope seal. 12 . A method of determining a swirl angle of a gas turbine engine using values obtained from the probe according to claim 1 , and wherein the swirl angle is calculated using: C yaw , act = Δ ⁢ P p t - ( p s . R + p s . L 2 ) = p s . R - p s . L P t - ( p s . R + P s . L 2 ) where C yaw,act act is the swirl angle, p t is total pressure, p s.R is pressure on a right side of the probe and p s.L is pressure on a left side of the probe, and ΔP is a difference in pressure between the right side of the probe and the left side of the probe.