no
Look fot answer in Google
You'll see two lines coming in and out of the compressor. One will be larger than the other. The compressor splits the low pressure side from the high pressure side. The smaller line will be at the compressor outlet, and that's where the high side of the system begins. From the compressor, the line will go to the condenser. Where the line goes next depends on what type of system you have. If you have a Thermal Expansion Valve (TXV) system, it will go to the receiver-drier. If you have a Fixed Orifice Tube (FOT) system, it will go directly to the FOT from the condenser outlet. On a TXV system, the line will go from the receiver-drier outlet to the TXV inlet. The TXV and FOT are both metering devices which separate the high and low pressure side of the system. The high pressure side ends at the metering device inlet, and the low pressure side begins at the metering device outlet.
by saying sorry and it will never happen again. try to stay on her good side for about 3 months.
32 lbs fot mk 1 diesel PS it is on the side of the drivers door near the lock catch
low side charging is on passenger side , between engine and firewall. about a fot down. if not there check near the right shock tower, there should be a" L" on the cap,
What iis 'fot'? If a typo...the word for...anwer is whoever they most recently captured
Freight on truck.
Artless
presence
CH4
a scar
Waves do not transport matter (except fot the matter equivalent of energy, according to the Theory of Relativity). For example, in a water wave, the wave moves on, but each water particle goes back to its place.Waves do not transport matter (except fot the matter equivalent of energy, according to the Theory of Relativity). For example, in a water wave, the wave moves on, but each water particle goes back to its place.Waves do not transport matter (except fot the matter equivalent of energy, according to the Theory of Relativity). For example, in a water wave, the wave moves on, but each water particle goes back to its place.Waves do not transport matter (except fot the matter equivalent of energy, according to the Theory of Relativity). For example, in a water wave, the wave moves on, but each water particle goes back to its place.