You know you spend too much time on MFP when....
Replies
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When you have an mfp BF/GF.
But you're totally married IRL.10 -
Avocado_AS5 wrote: »When you have an mfp BF/GF.
But you're totally married IRL.
That's the noob starter kit. True MFP'rs have a few extras on the line at the same time and convos have to go to KIK or Snap for proper pic and video sharing.4 -
Avocado_AS5 wrote: »When you have an mfp BF/GF.
But you're totally married IRL.
That's the noob starter kit. True MFP'rs have a few extras on the line at the same time and convos have to go to KIK or Snap for proper pic and video sharing.
Until the novelty wears off. Then it's back to boring old logging and fitness shiz.
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So far none of these describe me... I guess I don't spend enough time here. LOL4
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Avocado_AS5 wrote: »Avocado_AS5 wrote: »When you have an mfp BF/GF.
But you're totally married IRL.
That's the noob starter kit. True MFP'rs have a few extras on the line at the same time and convos have to go to KIK or Snap for proper pic and video sharing.
Until the novelty wears off. Then it's back to boring old logging and fitness shiz.
Ughhhhh...no wonder people delete accounts, have to recreate, or just leave.
Fitness...psshhhhhh...4 -
this is a great thread. it serves as a warning of what i'm slowly sliding into. it's good to know beforehand that i might be getting into trouble at some point.2 -
When you leave your fitness account open all day and never log off.0
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You have 1440 posts in 60 days! Thank you insomnia and that I discovered "fun and games"!3
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Co-workers are asking you who you are talking to on your phone so often at work...really you are just lurking the forums...rumours start that you have a new BF!2
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When you have MFP pulled up on a third monitor at work, and that is the only thing on that monitor.2
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browneyedgirl749 wrote: »When you have MFP pulled up on a third monitor at work, and that is the only thing on that monitor.
Brilliant!0 -
You go out into public and get excited thinking you see one of your MFP friends. Then you realize that person is like 6 states away or in a different country and get all bummed.
HA! I'm terrible with remembering faces, let alone pictures of faces that usually look nothing like they do in real life.0 -
browneyedgirl749 wrote: »You go out into public and get excited thinking you see one of your MFP friends. Then you realize that person is like 6 states away or in a different country and get all bummed.
HA! I'm terrible with remembering faces, let alone pictures of faces that usually look nothing like they do in real life.
It is probably just wishful thinking on my part
I have done that a few times myself. "wait, is that @randommfpperson...on, no they live in Europe"1 -
When threads get you thinking about moving to SC or Toronto.2
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only move to Toronto if you have an ark1
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When I don't get any work done at work.4
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@lstrat115 wrote: »SomebodyWakeUpHIcks wrote: »When threads get you thinking about moving to SC or Toronto.
Does this have anything to do with the Snapchatting from Toronto that you referred to earlier? Who on earth are you communicating with and what are they sending you to make you consider going there??
http://community.myfitnesspal.com/en/discussion/comment/39262662#Comment_39262662
http://community.myfitnesspal.com/en/discussion/comment/39260115#Comment_39260115
http://community.myfitnesspal.com/en/discussion/10538899/toronto
http://community.myfitnesspal.com/en/discussion/10538382/anyone-from-ryerson-in-toronto
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SomebodyWakeUpHIcks wrote: »@lstrat115 wrote: »SomebodyWakeUpHIcks wrote: »When threads get you thinking about moving to SC or Toronto.
Does this have anything to do with the Snapchatting from Toronto that you referred to earlier? Who on earth are you communicating with and what are they sending you to make you consider going there??
http://community.myfitnesspal.com/en/discussion/comment/39262662#Comment_39262662
http://community.myfitnesspal.com/en/discussion/comment/39260115#Comment_39260115
http://community.myfitnesspal.com/en/discussion/10538899/toronto
http://community.myfitnesspal.com/en/discussion/10538382/anyone-from-ryerson-in-toronto
TL:DR
I think his quoting prowess shows he is on MFP too much
and perhaps he can direct me to this Toronto Snapchatter cause I tried it since all the old ladies at skating do it but I can't for the life of me figure it out0 -
@lstrat115 wrote: »SomebodyWakeUpHIcks wrote: »@lstrat115 wrote: »SomebodyWakeUpHIcks wrote: »When threads get you thinking about moving to SC or Toronto.
Does this have anything to do with the Snapchatting from Toronto that you referred to earlier? Who on earth are you communicating with and what are they sending you to make you consider going there??
http://community.myfitnesspal.com/en/discussion/comment/39262662#Comment_39262662
http://community.myfitnesspal.com/en/discussion/comment/39260115#Comment_39260115
http://community.myfitnesspal.com/en/discussion/10538899/toronto
http://community.myfitnesspal.com/en/discussion/10538382/anyone-from-ryerson-in-toronto
TL:DR
I may not be a smart man, but I do know what TL:DR is.
No I don't.
What is it?1 -
SomebodyWakeUpHIcks wrote: »@lstrat115 wrote: »SomebodyWakeUpHIcks wrote: »@lstrat115 wrote: »SomebodyWakeUpHIcks wrote: »When threads get you thinking about moving to SC or Toronto.
Does this have anything to do with the Snapchatting from Toronto that you referred to earlier? Who on earth are you communicating with and what are they sending you to make you consider going there??
http://community.myfitnesspal.com/en/discussion/comment/39262662#Comment_39262662
http://community.myfitnesspal.com/en/discussion/comment/39260115#Comment_39260115
http://community.myfitnesspal.com/en/discussion/10538899/toronto
http://community.myfitnesspal.com/en/discussion/10538382/anyone-from-ryerson-in-toronto
TL:DR
I may not be a smart man, but I do know what TL:DR is.
No I don't.
What is it?
0 -
SomebodyWakeUpHIcks wrote: »@lstrat115 wrote: »SomebodyWakeUpHIcks wrote: »@lstrat115 wrote: »SomebodyWakeUpHIcks wrote: »When threads get you thinking about moving to SC or Toronto.
Does this have anything to do with the Snapchatting from Toronto that you referred to earlier? Who on earth are you communicating with and what are they sending you to make you consider going there??
http://community.myfitnesspal.com/en/discussion/comment/39262662#Comment_39262662
http://community.myfitnesspal.com/en/discussion/comment/39260115#Comment_39260115
http://community.myfitnesspal.com/en/discussion/10538899/toronto
http://community.myfitnesspal.com/en/discussion/10538382/anyone-from-ryerson-in-toronto
TL:DR
I may not be a smart man, but I do know what TL:DR is.
No I don't.
What is it?
Too Long Didn't Read
Ok. Let me summarize it for you.
Reduced order models (ROMs) are computationally efficient techniques, which have been used for predicting unsteady aerodynamic response of airfoils and wings. However, they have not been applied extensively to perform unsteady fluid dynamic analysis of flexible civil engineering structures such as super long-span bridges and wind turbines. This dissertation studies the application of reduced order computational fluid dynamics (CFD) model based on the eigensystem realization algorithm (ERA) in the aerodynamic and aeroelastic analysis of several well-studied super long-span bridges. The aerodynamic impulse responses of the GBB, Stonecutters and Messina Strait Bridge are used to construct the aerodynamic ROMs, and then the aerodynamic forces due to arbitrary inputs are evaluated and compared to those of the model coupled with an advanced Discrete Vortex Method based CFD code. To construct aeroelastic ROM, the aerodynamic ROM is coupled with single and two DOF models of bridge, which predicts results of aeroelastic analysis of elastically suspended sections. Moreover, indicial functions and flutter derivatives of the case studies are derived based on time history of aerodynamic coefficients and compared to those predicted by the proposed ROM method. The memory requirement and CPU time for ROMs are significantly lower than the original CFD program. Also, the ROM results demonstrate reasonable prediction power and high computational efficiency of the technique that can serve for preliminary design, optimization and control purposes. The methodology described in this dissertation has wide applications not only in super long-span bridges in civil engineering but also in many engineering problems where flexible structures interact with unsteady fluid mechanical phenomena.0 -
SomebodyWakeUpHIcks wrote: »SomebodyWakeUpHIcks wrote: »@lstrat115 wrote: »SomebodyWakeUpHIcks wrote: »@lstrat115 wrote: »SomebodyWakeUpHIcks wrote: »When threads get you thinking about moving to SC or Toronto.
Does this have anything to do with the Snapchatting from Toronto that you referred to earlier? Who on earth are you communicating with and what are they sending you to make you consider going there??
http://community.myfitnesspal.com/en/discussion/comment/39262662#Comment_39262662
http://community.myfitnesspal.com/en/discussion/comment/39260115#Comment_39260115
http://community.myfitnesspal.com/en/discussion/10538899/toronto
http://community.myfitnesspal.com/en/discussion/10538382/anyone-from-ryerson-in-toronto
TL:DR
I may not be a smart man, but I do know what TL:DR is.
No I don't.
What is it?
Too Long Didn't Read
Ok. Let me summarize it for you.
Reduced order models (ROMs) are computationally efficient techniques, which have been used for predicting unsteady aerodynamic response of airfoils and wings. However, they have not been applied extensively to perform unsteady fluid dynamic analysis of flexible civil engineering structures such as super long-span bridges and wind turbines. This dissertation studies the application of reduced order computational fluid dynamics (CFD) model based on the eigensystem realization algorithm (ERA) in the aerodynamic and aeroelastic analysis of several well-studied super long-span bridges. The aerodynamic impulse responses of the GBB, Stonecutters and Messina Strait Bridge are used to construct the aerodynamic ROMs, and then the aerodynamic forces due to arbitrary inputs are evaluated and compared to those of the model coupled with an advanced Discrete Vortex Method based CFD code. To construct aeroelastic ROM, the aerodynamic ROM is coupled with single and two DOF models of bridge, which predicts results of aeroelastic analysis of elastically suspended sections. Moreover, indicial functions and flutter derivatives of the case studies are derived based on time history of aerodynamic coefficients and compared to those predicted by the proposed ROM method. The memory requirement and CPU time for ROMs are significantly lower than the original CFD program. Also, the ROM results demonstrate reasonable prediction power and high computational efficiency of the technique that can serve for preliminary design, optimization and control purposes. The methodology described in this dissertation has wide applications not only in super long-span bridges in civil engineering but also in many engineering problems where flexible structures interact with unsteady fluid mechanical phenomena.
Ehhhhhhhh.........................................What?0 -
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Probably like EEEEEE purrrrrrr.0
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SomebodyWakeUpHIcks wrote: »SomebodyWakeUpHIcks wrote: »@lstrat115 wrote: »SomebodyWakeUpHIcks wrote: »@lstrat115 wrote: »SomebodyWakeUpHIcks wrote: »When threads get you thinking about moving to SC or Toronto.
Does this have anything to do with the Snapchatting from Toronto that you referred to earlier? Who on earth are you communicating with and what are they sending you to make you consider going there??
http://community.myfitnesspal.com/en/discussion/comment/39262662#Comment_39262662
http://community.myfitnesspal.com/en/discussion/comment/39260115#Comment_39260115
http://community.myfitnesspal.com/en/discussion/10538899/toronto
http://community.myfitnesspal.com/en/discussion/10538382/anyone-from-ryerson-in-toronto
TL:DR
I may not be a smart man, but I do know what TL:DR is.
No I don't.
What is it?
Too Long Didn't Read
Ok. Let me summarize it for you.
Reduced order models (ROMs) are computationally efficient techniques, which have been used for predicting unsteady aerodynamic response of airfoils and wings. However, they have not been applied extensively to perform unsteady fluid dynamic analysis of flexible civil engineering structures such as super long-span bridges and wind turbines. This dissertation studies the application of reduced order computational fluid dynamics (CFD) model based on the eigensystem realization algorithm (ERA) in the aerodynamic and aeroelastic analysis of several well-studied super long-span bridges. The aerodynamic impulse responses of the GBB, Stonecutters and Messina Strait Bridge are used to construct the aerodynamic ROMs, and then the aerodynamic forces due to arbitrary inputs are evaluated and compared to those of the model coupled with an advanced Discrete Vortex Method based CFD code. To construct aeroelastic ROM, the aerodynamic ROM is coupled with single and two DOF models of bridge, which predicts results of aeroelastic analysis of elastically suspended sections. Moreover, indicial functions and flutter derivatives of the case studies are derived based on time history of aerodynamic coefficients and compared to those predicted by the proposed ROM method. The memory requirement and CPU time for ROMs are significantly lower than the original CFD program. Also, the ROM results demonstrate reasonable prediction power and high computational efficiency of the technique that can serve for preliminary design, optimization and control purposes. The methodology described in this dissertation has wide applications not only in super long-span bridges in civil engineering but also in many engineering problems where flexible structures interact with unsteady fluid mechanical phenomena.
0
This discussion has been closed.
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