sensfan2014 Posted September 8, 2018 Report Posted September 8, 2018 When I am descending I am using the flap and speed numbers on the plane, but when I watch the videos , most of the people are using the flaps at much lower speeds: and I have a second question , when using vnav to descend on many of the lower altitude descents ; the plane speeds up very high to make it to the next leg altitude but can’t get near the speed on the fmc. Is there a trick when using vnav Quote
mfor Posted September 8, 2018 Report Posted September 8, 2018 Well those numbers refer to the maximum flap speeds - you can deploy the flaps at those speeds if you need the drag, but in most cases you'd deploy them later. As long as you do not bust any speed restriction (ATC or Vspeed) I think it's fine. The FMC target speed on descend is kind of a lower limit, i.e. the AT will increase the throttle if the speed falls below that speed minus 10 knots. You can use the AP in speed/vs mode though to plan your descend manually - which is not unheard of in real life as well, especially since ATC will give you vectors and possibly altitudes that deviate from a preplanned STAR approach every now and then. Quote
Iain Posted September 9, 2018 Report Posted September 9, 2018 Vspeeds, Vref and Flap speeds are based on the weight of the aircraft. Flap limit speeds are based on Vref (landing speed for your current weight + xx kts). The reference table is in the cockpit, above your head to the left, the yellow stamp. Something like this Landing Speeds for the 737-300/400/500 Landing Weight 737-300 20K 737-400 23.5K 737-500 18.5K Flaps Flaps Flaps /1000kg 40 30 15 40 30 15 40 30 15 70 155 159 177 65 152 153 165 149 154 171 60 145 147 158 143 147 164 140 144 154 55 138 141 151 137 141 156 134 139 148 50 131 134 144 130 134 149 128 133 141 45 123 127 136 124 127 141 122 125 135 40 115 119 128 116 119 132 114 117 125 35 107 111 119 109 111 123 107 109 116 It is generally not good practice to to use flaps near their max speeds to help with slowing the aircraft down, that is putting undue stress on the flaps and the flap mechanics, although flaps 10 is a setting not used for much apart from being able to keep your speed down without flying around with the gear down. VNAV has to be used with caution, especially at low altitude. You statement is a bit confusing "speeds up high, but can't get near the speed on the fmc". Do you mean your IAS will not reach the speed stated on the LEGS page of the FMC? Or you have excessive vertical speeds to maintain the MCP speed (a more common problem). VNAV with follow the vertical profile in the FMC, but if you have no height restrictions, and have an alt set in mcp, VNAV simply sets idle thrust and pitches to hold speed, which can result in a high vertical speed. In this case, I would recommend using vertical speed mode and monitor the green arc in the ND to determine when you will reach you target altitude, adjust your vertical speed accordingly, if you can't descend without your speed increasing, then best to slow down more before starting descent, or use some speed brake. Personally, I stop using VNAV once below about 6000 - 8000ft due to the possible high vertical speeds. Quote
sensfan2014 Posted September 10, 2018 Author Report Posted September 10, 2018 Thanks , that helps Quote
Hullu-poika Posted December 25, 2019 Report Posted December 25, 2019 Hello! I have also a question regarding flaps. When I set flaps 1 from 0 I have a pitch down tendency in opposite to other flap settings. I could not see this on other 737 models and could not recognize real behaviour wathcing videos from real flights. How is it going in a real life? Shall flap 1 setting to produce pitch down and sink the aircraft a little? It feels strange for me... And second question is about systems. We have a feature of high negative battery current indication during APU start. But shall it work the same way if ground power supply is connected? Quote
Litjan Posted December 25, 2019 Report Posted December 25, 2019 (edited) 1.)Extending the flaps to 1 is generally enlarging the wing area to the rear with very little curvature added. That is why the center of lift is moving backwards - producing a nose-down momentum. It is actually quite pronounced in the real aircraft. If you don´t counteract the nose-down trim shift the nose will actually go down and the aircraft will loose lift as a consequence. 2.) When you start the APU, the generator buses (which are powered by the ground power) are not used - only the battery can produce enough current to start the APU. Thats why you see the high discharge and also why all the lights connected to the battery bus will dim during the APU start - even with ground power connected. Cheers, Jan Edited December 25, 2019 by Litjan 1 1 Quote
Hullu-poika Posted December 25, 2019 Report Posted December 25, 2019 Thanks Litjan! Answers are very precise and clear as usual! 1 Quote
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