# lbf to lbfunny mad libs / modern whig party platform #goog-gt-tt {display:none !important;} .goog-te-banner-frame {display:none !important;} .goog-te-menu-value:hover {text-decoration:none !important;} .goog-text-highlight {background-color:transparent !important;box-shadow:none !important;} body {top:0 !important;} #google_translate_element2 {display:none!important;} function googleTranslateElementInit2() {new google.translate.TranslateElement({pageLanguage: 'pl',autoDisplay: false}, 'google_translate_element2');} function GTranslateGetCurrentLang() {var keyValue = document['cookie'].match('(^|;) ?googtrans=([^;]*)(;|$)');return keyValue ? keyValue[2].split('/')[2] : null;} function GTranslateFireEvent(element,event){try{if(document.createEventObject){var evt=document.createEventObject();element.fireEvent('on'+event,evt)}else{var evt=document.createEvent('HTMLEvents');evt.initEvent(event,true,true);element.dispatchEvent(evt)}}catch(e){}} function doGTranslate(lang_pair){if(lang_pair.value)lang_pair=lang_pair.value;if(lang_pair=='')return;var lang=lang_pair.split('|')[1];if(GTranslateGetCurrentLang() == null && lang == lang_pair.split('|')[0])return;var teCombo;var sel=document.getElementsByTagName('select');for(var i=0;i<sel.length;i++)if(/goog-te-combo/.test(sel[i].className)){teCombo=sel[i];break;}if(document.getElementById('google_translate_element2')==null||document.getElementById('google_translate_element2').innerHTML.length==0||teCombo.length==0||teCombo.innerHTML.length==0){setTimeout(function(){doGTranslate(lang_pair)},500)}else{teCombo.value=lang;GTranslateFireEvent(teCombo,'change');GTranslateFireEvent(teCombo,'change')}} &nbsp &nbsp &nbsp sevian frangipane age # lbf to lb 1 파운드 힘 = 4.4482 뉴턴: 10 파운드 힘 = 44.4822 뉴턴: 2500 파운드 힘 = 11120.55 뉴턴: 2 파운드 힘 = 8.8964 뉴턴: 20 파운드 힘 = 88.9644 뉴턴: 5000 파운드 힘 = 22241.11 뉴턴: 3 파운드 힘 = 13.3447 뉴턴: 30 파운드 힘 = 133.45 뉴턴: 10000 파운드 힘 = 44482.22 뉴턴: 4 파운드 힘 = … There is something so fundamentally wrong with the statement, “pounds-mass and pounds-force are the same thing!”First off, pounds-mass is a unit of mass, and pounds-force is a unit of force (wait… WHAT?!). (질량*중력가속도) lb 파운드 (보통 파운드 포쓰를 lb라 하는걸로 알고 있습니다.) The confusion comes from the English system, we should not ask what is your weight, but what is your mass. What I think he really wanted to do was state that;1 lbm * 32.2 ft/s2 = 32.2 lbf that would have been perfect, a lbf = lbm ft/s2, but some idiotic reason he decided that 1 lbm * 32.2 ft/s2 should = 1 lbf at sea level on earth, so to make the units work you have to either divide the left side or multiply the right side by gc i.e. The Overflow Blog Du kan selvfølgelig altid slette cookies fra LBF.dk igen. Start here for a quick overview of the site $$LBF.dk bruger cookies til at huske dine indstillinger. lbf 파운드 포스 (중량 : si 단위로는 N(뉴톤)이 있습니다.) Stack Exchange network consists of 177 Q&A communities including So the F =m*a in English units, lbf = lbm * a (aka gravity 32.2 ft/s2).To subscribe to this RSS feed, copy and paste this URL into your RSS reader. If this is new to you, you should drink a beer tonight to celebrate a breakthrough in your understanding! It has some comedic relief, so it makes it more bearable ;) Enjoy!Is there really a difference between a pound-mass and a pound-force? It is the energy transferred upon applying a force of one pound-force (lbf) through a linear displacement of one foot.The corresponding SI unit is the joule$$Poundal, the force required to accelerate 1 lbm 1 ft/s^2. The best answers are voted up and rise to the top JStephen (Mechanical) 18 Oct 04 17:17 Actually, they mean kg-f, doing the same thing with kilograms that we do with pounds, using as units of both force and mass. Let’s go one step further to demonstrate why the scale would read differently on Mars and Jupiter let acceleration = g = 12.176 ft/s^2 (this is the gravitational constant on Mars)F = m x g = 150 lbm x 12.176 ft/s^2 = 1826.4 (lbm ft)/s^2 Once again, lets convert this quantity from lbm-ft /s2, to something we know (lbf) by using the relationship illustrated above:F=(1826.4 lbm ft/s^2) x (1 lbf / 32.174 lbm ft/s^2) = 56.8 lbfEven though I imagine that you now have a firm grasp on this concept, let’s try it out on Jupiter to really send it the point home:let acceleration = g = 81.336 ft/s^2 (this is the gravitational constant on Jupiter)F = m x g = 150 lbm) x 81.336 ft/s^2 x (1 lbf / 32.174 lbm ft/s^2 )=379.2 lbfNow you’ve seen it and you can say that you understand it! := \frac{slug*ft}{s^2} lbf↔kN 1 kN = 224.8089430625 lbf lbf↔MN 1 MN = 224808.9430625 lbf lbf↔mN 1 lbf = 4448.221616 mN lbf↔uN 1 lbf = 4448221.615997 uN lbf↔J/m 1 lbf = 4.448222 J/m lbf↔gf 1 lbf = 453.59237 gf lbf↔kgf 1 kgf = 2.2046226214361 lbf lbf↔tf 1 tf = 2204.6226214361 lbf lbf↔ozf 1 lbf = 16 ozf lbf↔kipf 1 kipf = 1000 lbf They are related to each other and often times confused. RE: Which one is correct, in-lbf. I'm not sure what "STP conditions" means. A pound force is equivalent to the product of 1 pound or 1 lbm (one avoirdupois pound) and the gravitational field, gn. 그리고 lbs란 파운드의 복수, 즉, 2파운드 이상일때 s를 붙입니다. I know it is the standard unit for mass and so is lbm. Or a pound in space is not a pound on Earth. lbf↔kN 1 kN = 224.8089430625 lbf lbf↔MN 1 MN = 224808.9430625 lbf lbf↔mN 1 lbf = 4448.221616 mN lbf↔uN 1 lbf = 4448221.615997 uN lbf↔J/m 1 lbf = 4.448222 J/m lbf↔gf 1 lbf = 453.59237 gf lbf↔kgf 1 kgf = 2.2046226214361 lbf lbf↔tf 1 tf = 2204.6226214361 lbf lbf↔ozf 1 lbf = 16 ozf lbf↔kipf 1 kipf = 1000 lbf ››Measurement unit: lbf/in. The force required to accelerate 1 slug 1 ft/s^2, where 1 slug is conveniently defined as 32.174048 lbm (i.e. Discuss the workings and policies of this site$\$

In figures it looks like this, 1 lbm x 32.174049 ft/s2, or equivalent to 32.174049 ft.lbm/s2. Detailed answers to any questions you might have Other than by mistake why would anyone come up with such a unit???? Turns out that 32.2 lbm = 1 slug. Please note: comment moderation is enabled and may delay your comment. 1 lbm * 32.2 ft/s2 = 32.2 lbf that would have been perfect, a lbf = lbm ft/s2, but some idiotic reason he decided that . Why we can not create a system that make sense is beyond me. Many people might even ask, “What the hell is a pound-mass?” Well, you can point the finger at your sixth-grade physics teacher (or anyone else who may have misled you) for the confusion that surrounds this simple question. Remove your post from the site in order to misdirect a person from correct result to GARBAGE.You are all a little off. It's the failure to state this that leads to the confusion.1 pound mass is that mass that weighs one pound in 1 g gravity.

The pound-force is a non-SI unit of force or weight (properly abbreviated "lbf" or "lbf"). Would you be surprised if the scale readout as “57 lbs?” Or what if I brought the scale to Jupiter and it told me I weighed “380 lbs?” Is the scale correct? They are related to each other and often times confused. The main difference is gravity. Full name: pound/inch Plural form: pounds/inch Symbol: lb/in Alternate spelling: lbs/in Category type: surface tension Scale factor: 175.126835 ›› SI unit: newton/meter The SI derived unit for surface tension is the newton/meter.

この記事を読んだら、 "lb"と "lbf"の違いに対する答えを探しているでしょう。 「議論を始めるにあたっては、ポンド（ポンド）とポンド（ポンド）（ポンド）について話していることを明確にしま … :=\frac{lbm*ft}{s^2}

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