- FTP MÃ¤nner (Watt/kg) FTP Frauen (Watt/kg) Weltspitze: 6,4: 5,7: Internationales Niveau: 5,8: 5,1: Nationales Niveau: 5,1: 4,6: Regionales Niveau: 4,5: 4,0: Hobbysportler: 3,8: 3,4: MittelmÃ¤ÃŸig: 3,2: 2,8: Untrainiert: 2,6: 2,3: Schlecht: 1,9: 1,7: Sehr schlecht: 1,4: 1,
- Watts/kg on the power curve 14 June, 2012 by David Johnstone. It's now possible to see your power as watts per a kilogram on the power curve. You'll first want to add your weight, and then you can click on the W/kg button at the top right of the graph and the values are shown as watts per a kilogram. This doesn't yet support different weights over time, so old powers won't be shown accurately if your weight has changed much
- ute effort in watts per kilogram for males and females is exactly the same at 3.80W/kg, which means the average male and female Cycling Analytics user should be able to ride up a mountain at about the same speed. How this compares with Andrew Coggan's char
- Wir schauen auf ihren FTP in Watt und teilen diesen Wert durch ihr KÃ¶rpergewicht in Kilogramm um ihren W/kg-Wert an der Leistungsschwelle zu erhalten. Pat: 345W Ã· 81.4kg = 4.2 W/kg Andy: 320W Ã· 69.5kg = 4.6 W/k
- Here are the categories that they recommend you race based on your FTP data and watts per kilogram. The Zwift C category (next from the bottom) says that you should be able to ride at the level between 2.5 to 3.1 w/kg. If you want to succeed in the A category, you'll need to be able to hit 4.0 w/kg or better. If you ride better than 6 w/kg on Zwift for any extended period in a race, they generally suspect cheating and filter you out of race results
- This chart was originally created by Andy Coggan. The numbers are in watts per kilogram, so you'll need to know your weight in order to calculate your FTP in w/kg. Example: if you weigh 75kg and have an FTP of 250W, your FTP w/kg would be 250/75=3.33
- uti. Per essere al suo passo quanto dovremmo spingere? 7,6 x 65 = 494 Watt

Ein guter Fahrer der Kategorie 1 bringt es auf 4,5 bis 4,8 W/kg, Kategorie 2 ist irgendwo um die 4 W/kg einzustufen und Kategorie 3 bewegt sich zwischen 3,5 und 3,8 W/kg. Im Frauenradsport bringt es eine Kletterspezialistin wie beispielsweise Emma Pooley auf einen Wert von etwa 5,2w/kg Pantanis mittlere Dauerleistung betrug somit 6,2 Watt/Kilogramm (403 Watt: 65 kg = 6,2 Watt/kg). Dies ist ein Rekordwert. Dies ist ein Rekordwert. Â© BVA BikeMedi

* Generally, untrained riders have an FTP below 2*.0 W/kg for men and 1.5 W/kg for women, while professional racers may be capable of sustaining more than 6.0 W/kg for men and 5.5 for women. The majority of TrainerRoad athletes have power-to-weight ratios between 2.25 W/kg and 3.5 W/kg, but many of our athletes sit well above or below this range Power: 934W (13.34 W/kg) Peak Power: 1,339W (19.13 W/kg) This puts Gaviria in the exceptional (i.e. domestic pro) category of the Training Peaks chart but sprinting is not always about max. Beispiel: Ein 80 Kilogramm schwerer Radfahrer, der mit 300 Watt in die Pedale tritt, erzeugt eine Leistung von 3,75 Watt je Kilogramm KÃ¶rpergewicht

So liegen Hobbyfahrer meist bei 2,5 - 3,5 Watt/kg fÃ¼r eine 30-minÃ¼tige Bergfahrt, wobei Weltklasse-Bergfahrer Leistungen von 6 bis 7 Watt/kg erreichen kÃ¶nnen. Sag's weiter! Bergfreund Ronny - GeschÃ¤ftsfÃ¼hrung Unsere KlimaneutralitÃ¤t ist ein wichtiger Meilenstein hin zu mehr Nachhaltigkeit. Portofrei ab â‚¬ 50 (DE) 100% klimaneutral 100 Tage RÃ¼ckgaberecht. So bewerten uns 99.514. The cycling power is measured in Watts. One Watt corresponds to one Joule of energy produced every second. Our cycling wattage calculator is based on the model described in detail in the paper What is slowing me down? Estimation of rolling resistances during cycling. It assumes that the power you produce is equal to the sum of resistances you need to overcome, multiplied by your speed. Additionally, we take power losses into consideration * Beginners or Cat 5s range from 2*.5 to 3.2 watts/kg for men and 2.1 to 2.8 watts/kg for women; Cat 3 racers typically range 3.7 to 4.4 watts/kg (men) and 3.2 to 3.8 watts/kg (women). How to.

Your cycling power is mainly determined by jour body weight in kg and your FTP (your Functional Threshold Power), in Watt/kg. Your FTP equals the total power in Watts divided by your weight in kg. Enter your body weight and FTP at the next tab The standards for racing cyclists are also divided into different categories. So amateur cyclists mostly fall in the range of 2.5 - 3.5 watts/kg for a 30 minute mountain trip, whereas world-class mountain cyclists can achieve a capacity of 6 to 7 watts/kg ** Estimate your Power from Speed**. There is a new version of this calculator! On the home page. The calculators on this page calculate power from your speed and other parameters. There are two independent calculators here so you can compare two sets of input parameters. A version for US units is here. See the links at right for other calculators Take a look at the table below to see where you line up. What constitutes a good power to weight ratio changes based on the length of the effort, so be sure to check different efforts (5s, 1 min, 1 hour) to see how you stack up against other cycling categories. *Note* The data in this table is only rough estimates. These values are constantly.

Watts Per Kilogram Calculator. Determine your watts per kilogram (W/KG) for use in cycling training. This metric is also used in virtual cycling programs like Zwift for ranking riders into categories (A-D). Weight. Units. Power (Watts) Watts Per Kilogram. Zwift Category (A-D) Watts Per Kilogram Chart. Weight (KG) Watts 45 55 65 75 85 95 105 115 125 135; 100 WATTS: 2.22 W/KG: 1.82 W/KG: 1.54 W. Die Einheit ist Watt/kg. Der oft fÃ¤lschlich stattdessen verwendete Ausdruck Leistungsgewicht bezeichnet hingegen den Kehrwert der spezifischen Leistung und hat die Einheit kg/Watt Bedeutung im Radsport. Speziell im Sport (v. a. Radrennen) dient die gewichtsbezogene Leistung als Kennzahl fÃ¼r die LeistungsfÃ¤higkeit eines Sportlers. Sie wird im Radsport hÃ¤ufig ermittelt, um die Leistung von. Power per mass: W/. kg lb. Please enter two values, the third one will be calculated. Instead of kilograms, pounds (lb) can be choosen. 1 lb = 453.59237 grams. Example: an cyclist with a body weight of 80 kilograms, pedaling with 300 watts, performs with a power of 3.75 watts per kilogram body weight. Calculator for Walking, Running, Swimming. Rather, she had to produce three maximum kicks, each peaking at over 800W (12.5 W/kg). This was after a tough race, which included more than 1,000m of climbing across 140km Power (Watts) Power Zone Low end zone High end zone; 1. Active Recovery < 2. Endurance : to : 3. Tempo : to : Sweet Spot : to : 4. Threshold : to : 5. VO2 max : to : 6. Anaerobic capacity : to : FTP (Watts) Power to Weight (Watts per Kg

Then take your average power for a 60-minute all-out effort and divide that by your weight in kilograms. This result is your watts per kilogram ratio. Let's put this math to work in an example. Let's say Joe Athlete weighs 165 lb and can hold 270 watts for an hour. 165 divided by 2.2 equals 75 kg, and 270 watts divided by 75 kg is 3.6 w/kg For example, while VO2max declines by ~0.5 mL per min per kg per year (~0.35 mL per min per kg per year in women) starting at around age 30, muscle strength and power are generally well-maintained until around age 50, then begin to decline somewhat more rapidly thereafter. Such observations imply that, for maximum accuracy, different age-based correction factors might need to be applied to the different columns. It is unlikely, however, that these differential changes with age are sufficient. ** Molto utile l'utilitÃ per il calcolo della velocitÃ conoscendo spazio e tempo; Il calcolo del consumo calorico per un ciclista che utilizza un misuratore di potenza; Calcolo consumo carboidrati, grassi e proteine durante attivitÃ Tabelle watt ciclismo; Puoi utilizzare anche **. Cycling calculator: power from speed e Bike Calculator If the climber can put out 350 watts over the course of they climb then their power to weight ratio is 6.1w/kg, whereas the sprinter can produce 440 watts but has a lower power to weight ratio of.

- Ein 90 kg schwerer Finnsegler bewegt sein MTB bei einer Leistung von 150 Watt mit einer Geschwindigkeit von 24,3 km/h. Mit 100 Watt erreicht er immerhin noch 20,6 km/h (100 Watt werden daher oft als Normalo-Leistung angesehen.) Mit 75 Watt liegt der Speed bei 18,6 km/h; Mit 50 Watt liegen wir bei 15,3 km/
- ute all-out time trial, typically on a steady climb. But pros often.
- utes): 420 watts . Do you think more riders should follow in Froome's footsteps? Vote in our Twitter poll.
- g; Feedback on your training and performance by a professional cycling coach; Community area, with a professional coach available (5/7), to keep you always on track with your goals and all the feedbacks co
- Which is why in cycling circles FTP is usually expressed in watts per kg of body weight. Peloton doesn't display this, but's calculated as FTP/weight-in-kg. If you use lbs for weight, formula is FTP/weight-in-lbs*2.205. My advice for any new cyclist would be: Listen to smart, experienced, good cyclists. With road cycling experience
- leistungstest gefahren, da waren auch mÃ¤nner mit 36 dabei. bei mir warns 359 watt bei 71kg also 5,06 watt/kg. bei den alten sÃ¤cken die auch so um die 90kg haben wars im schnitt so 400watt, also 4,44watt/kg

7 WATT PER KILO - Sfida te stesso e migliora tutti i tuoi record personali (PR). Metodo scientifico di allenamento per ciclismo e triathlon con nutrizione sportiva personalizzata Bike Calculator. Welcome to the oldest and most popular bicycle performance prediction calculator on the web - since 1997. Effortlessly compute speed or power for all important parameters, such as weight, grade, position and tire type. This is actually an engineering model that knows the relationships between power, speed, and the three major. The data revealed that at a power output equal to 3 watts per kilo (W/kg), amateurs produced 37.5% more lactate, but nudge the power up a bit to 3.5W/kg and suddenly the figure jumped to 62.5% more

- Brake-specific fuel consumption (BSFC) is a measure of the fuel efficiency of any prime mover that burns fuel and produces rotational, or shaft power. It is typically used for comparing the efficiency of internal combustion engines with a shaft output.. It is the rate of fuel consumption divided by the power produced. It may also be thought of as power-specific fuel consumption, for this reason
- MegaWatSoft Steam Tables Excel Add-In ActiveX DLL Win32 App. Group. Property Name. Property ID * Results. Units (SI) Units (E) Constants used in calculation. Constants used in calculation . 1. Thermodynamic Properties - Main. 1. 1. Thermodynamic Properties - Main. Pressure (absolute) p : bar. psi. Specific gas constant: R = 0.461526 kJ/(kgÂ·K) Specific gas constant: R = 0.1102336 Btu/(lbÂ·Â°F.
- ; W The table conversion factors represent how 1 unit listed down equals the number of units listed across; eg: 1 Kcal = 4.1868 kJ POWER Kgm/

Table 4. Examples of SI Derived Units Expressed by Means of Special Names. SI Unit; Quantity Name Symbol; dynamic viscosity: pascal second: PAÂ·s: moment of force : newton meter: NÂ·m: surface tension: newton per meter: N/m: heat flux density, irradiance: watt per square meter: W/m 2: heat capacity, entropy: joule per kelvin: J/K: specific heat capacity, specific entropy: joule per kilogram. Based on the new formula, we have compiled the table below that gives a good picture of the achievable times as a function of the specific power (TP/m in Watt/kg). So from now on you can very easily calculate or read off your achievable time from the table when you know with which specific power (TP/m) you will run the race! That is of course very useful if you have used the Stryd in training. We graduate to 300 watts, roughly the power Stevens maintained for her hour record. I try to play it cool, sustain the effort. The original plan was to spend 30 seconds at each wattage, but I. As a useful bench mark, the UCI WCC coaches expect elite male sprinters to be able to produce 25 watts per kg (of body weight). That means from a peak power during a maximal sprint a 90kg male would be expected to hit over 2250 watts (This calculation shows that Chris Hoy used to produce more than 27 watts per kilo). For Elite women the figure is around 20 watts per kilo. Watt measurements. Power generated is generally measured in watts per kg of bodyweight. We can therefore expect heavier people to be (potentially) able to generate more power during exercise. How much can we generate? For sustained periods - let's say about an hour - here's the athletic power output for different types of people: The average fit person can produce about 3 watts/kg. top amateurs produce 5.

- e his FTP over 20-40
- On firm, flat ground, a 70 kg (150 lb) person requires about 60 watts to walk at 5 km/h (3.1 mph). That same person on a bicycle, on the same ground, with the same power output, can travel at 15 km/h (9.3 mph) using an ordinary bicycle, so in these conditions the energy expenditure of cycling is one-third that of walking. Uphill and downhill speeds vary according to the slope of the incline.
- To calculate the watt hours (WH) of a battery pack, simply multiply the voltage by the amp hours (Ah) of the pack. A 36-volt 10-Ah battery pack has 360 watt hours (36 X 10 = 360). If you are nitty with your energy usage, each mile you travel will cost you about 20 watt hours. Therefore a 360 watt hour pack will get you about 18 miles
- The chart above shows the watt and watts/kg savings by percent of drag reduction from the initial overinflated CdA number for Ewan in Table 1. While we don't have Ewan's data for the Tour Down Under, you can quickly see how important these drag savings can become in the sprint to the line. To put it in perspective, at these speeds, a 2 percent drop in drag gives the same benefit power wise as.
- A 150 pound rider pushing 200 watts will go 10 miles per hour up a 5% grade. A 200 pound rider pushing 200 watts will go 8 miles per hour up a 5% grade. In order for the 200 pound rider to go as fast as the 150 pound rider up a 5% grade the 200 pound rider will have to push 255 watts

- Secondly, understand that watts per kilogram (w/kg), or power to weight ratio, is your current wattage (the power you're putting into the pedals) divided by your body weight in kilograms. Example: I weigh 84kg, so if I'm putting out 300 watts my w/kg is 300/84=3.57. Now, back to the question
- von ~400 W errechnet sich eine VO 2 max von 72.0 ml / (kg â‹… Man muss dazu allerdings bereits ungefÃ¤hr wissen, wie viel Watt man imstande ist 6
- Power Watt W kg m^2 s^-3 (= J s^-1) Frequency Hertz Hz s^-1 (cycles per second) Ionizing Radiation Dose sievert Sv J kg^-1 Table A II 3 | Non-SI standard units. Monetary units Unit Symbol Currency (Market Exchange Rate, MER) constant US Dollar 2010 USD 2010 Currency (Purchasing Power Parity, PPP) constant International Dollar 2005 Int$ 2005 Emission- and Climate-related units Unit Symbol.
- ute. Also see Mechanical Cycle Ergometer Calculator. Accurate requirements: steady state submaximal aerobic exercise ; leg cycling between 50 and 200 watts (300 and 1200 kgm/
- Moving from Watts to Ridding Yourself of that Spare Tire. The energy density of fat is ~3500 kcal per pound. Which fits quite nicely into our equation: energy (kcal) = avg power (Watts) X duration (hours) X 3.6. Using the formula above, we can see that a watt-hour (1 watt for 1 hour) is worth 3.6 kcal

At the end of the 10 minutes you should be at a cadence of 70 to 90 revolutions per minute, or RPM. Your power output at this point will be your Baseline Watts, or BW. Over the next 10 minutes, increase your power output by 10 to 20 watts each minute. Decrease your power output incrementally by the same amount each minute for the next nine minutes, returning to your BW. End the workout with a. Consider a cycle that uses vapour throughout. Evaporation and condensation at constant pressure is also constant temperature. Isothermal heating and cooling is theoretically possible. The cycle would consist of the same 4 processes as before only this time each process would be carried out in a separate steady flow plant item wit Calories burned per minute = (MET x body weight in Kg x 3.5) Ã· 200 MET is a measurement of the energy cost of physical activity for a period of time. You can find an activity's MET on the chart above. A task with a MET of 1 is roughly equal to a person's energy expenditure from sitting still at room temperature not actively digesting food. A task with a MET of 2 uses twice as much. 330 - 350 Watt pro Kilo Flugzeuggewicht werden benÃ¶tigt. Markus Trauernicht Ausdruck und unverÃ¤nderte VervielfÃ¤ltigung erwÃ¼nscht. 3. 6,6 Volt * 15 Ampere = 99 Watt Mit der Zahl kann man erst etwas anfangen, wenn man diese auf 1000 Gramm hochrechnet. Also 4*250 Gramm = 1 Kilo Oder im Dreisatz: 250 Gramm = 99 Watt 1 Gramm = 99 Watt / 250 Gramm 1000 Gramm = 0,396 * 1000 = 396 Watt pro Kilo.

- Unit Conversion Tables - Conversion. Online measurement conversions for metric, imperial and us customary systems. Includes many conversion calculator categories, thousands of units, definitions and formulas.Besides the conversion categories, the site also provides metric conversion tables for many popular units
- 187 washes per year. EU energy label A-rated gives an average consumption at 40Â°C using a 2kg load to be 0.63 kWh. Â£11.78. 51. Electric Tumble Dryer. 148 uses per year. 2.50 kWh per cycle. Based on an average load capacity of 4.76 kg of dry laundry. Â£37.00
- Watts to kWh calculator KWh to watts calculation. The power P in watts (W) is equal to 1000 times the energy E in kilowatt-hours (kWh), . divided by the consumption time period t in hours (hr): P (W) = 1000 Ã— E (kWh) / t (hr). kWh to watts calculatio
- How to convert horsepower to watts Mechanic / Hydraulic horsepower to watts. One mechanic or hydraulic horsepower is equal to 745.699872 watts: 1 hp(I) = 745.699872 W. So the power conversion of horsepower to watts is given by: P (W) = 745.699872 â‹… P (hp) Example. Convert 10 hp to watts: P (W) = 745.699872 â‹… 10hp = 7456.99872 W . Electrical.
- To make the best guess we can look at the power of the average, untrained cyclist; about two watts per kilogram (0.9w/lb) body weight for an hour. So if you're 60kg, that's 120w. But if you're cycling all day that power will drop a little. I'd recommend inputting 1.8 watts per kilogram (0.8w/lb) if you're untrained
- In simpler terms, watts measure how hard you work. One horse, for example, can produce 746 watts. One super human, like six-time Tour de France stage winner Andre Greipel, can create a charge of 1,900 watts in a single sprint. Most pro cyclists produce about 200 to 300 watts on average during a four-hour tour stage

conversion table: italiano english joule per kilogram (J/kg) 2.326 E+03: British thermal unit th per pound (Btu th /lb) joule per kilogram (J/kg) 2.324444 E+03: calorie IT per gram (cal IT /g) joule per kilogram (J/kg) 4.1868 E+03: calorie th per gram (cal th /g) joule per kilogram (J/kg) 4.184 E+03: British thermal unit IT per hour square foot degree Fahrenheit [Btu IT /(h*ft 2 *8F)] watt. kg/s. Calculate the following. 1. The cycle efficiency. 2. The heat transfer into the heater. 3. the nett power output. = 1.4 c p = 1.005 kJ/kg K (Answers 42.7 % , 206.7 kW and 88.26 kW) Â©D.J.Dunn 8 3. THE EFFECT OF FRICTION ON THE JOULE CYCLE 3.1 TURBINE The isentropic efficiency for a gas turbine is given by: i = (Actual change in enthalpy)/(Ideal change in enthalpy) i = (Actual change in. The only smart bike you'll ever need, from Â£45 per month. Find out more The Wattbike Atom is a Peloton rival made in Zwift heaven The pro choice Unfortunately we can't score the Wattbike Atom an 11/10, but we would if we could... DESIGNED IN THE UK. Wattbike was born more than 20 years ago with one goal - create the ultimate indoor bike. Expertly crafted and designed in the UK.

Training plans for 50 and 100 mile bike rides, designed to progress your cycling training and fitness. The Base Training Cycling Plan. The base cycling training plan from Wattbike. Developed in partnership with Veloptima and InPursuit Coaching, with 3-5 weekly indoor base training sessions. The Winter Cycle Training Plan 1 kJ/kg = 1 J/g = 10-3 GJ/t = 0.23885 kcal/kg = 0.4299 Btu(IT)/lb = 0.0002778 kWh/kg; 1 kWh/kg = 1547.7 Btu(IT)/lb = 3.6 GJ/t = 3600 kJ/kg = 860.421 kcal/kg; Energy per unit volume (Specific energy - volume Once you have a number for your FTP in watts, divide it by your weight in kilograms. Most of the time, this will be what you use to figure out your race category. For example, if a rider has an FTP of 210 watts and weighs 75 kilograms, that means the rider's FTP is 2.8 w/kg. It's important to do your best to choose the right category Table E7.1-1 lists the states of steam in the ideal Rankine cycle with the bold values are the two properties used to defined the states. The work produced by the turbine per kg of steam is W t = (h 1-h 2) = 3625 - 2505 = 1120 kJ/kg 2 K or et sk yM .D ,E n giadC h m c lT W 2 04p 1. 7-4 The work received by the pump is W p = (h 4-h 3) = 427.7 - 417.4 = 10.3 kJ/kg The net work produced by the. Therefore the exact conversion factor for the International Table British thermal unit (Btu) is 1.05505585262 kJ. The thermochemical Btu is based on the thermochemical calorie which equals 4.184 joule exactly. Note that reference is often made to the calorie when in actual fact the kilocalorie (also called Calorie, large calorie or kilogram calorie) is meant. (1 kilocalorie = 1000 calories.

- You are currently converting energy units from kg of oil equivalent to kilowatt hour 1 koe = 11.63 kWh. kg of oil equivalent . koe kilowatt hour . 11.63 kWh ~= 11 kWh 630 Wh. Conversion base : 1 koe = 11.63 kWh . Conversion base : 1 kWh = 0.085984522785899 koe. Switch units Starting unit. Joule family. gigajoule (GJ) megajoule (MJ) kilojoule (kJ) joule (J) calories and kilocalories.
- Related pages: Method, Finish Times & Effects of Increasing Power on Cycling Speed; Types of Resistance When Cycling; Method. In the standard simulated scenario (see the General Method page), a total weight of 85 kg is assumed. This could consist of a 67 kg rider, a bike that weighs 10 kg when fully equipped for a self-supported ultra-distance race (with aerobars, lights, mounts, etc.), and 8.
- utes (a standard test interval) and thus has a power-to-weight ratio of 5.0 Watts per kg. (Top climbers have a ratio of 6-7 Watts-per-kilo.) For comparison, a lighter rider, let's say 60-kg climber (or 132 lbs.) need only produce 360 Watts to achieve 6 Watts per kilo. In this scenario, the lighter rider will overcome.

** This test requires the athlete cycle as fast as possible for 30 seconds**. The assistant weighs the athlete (kg) The athlete warms up for 10 minutes. The assistant calculates and records the flywheel resistance required as follows: Athlete's weight x 0.08. The assistant gives the command GO and starts the stopwatch and the athlete pedals as. 1 kWh is 1 KW power during 3600 secs, which is 1 kJ/s during 3600 secs, which is (1/52300) (kJ/s divided by kJ/kg) during 3600 s, which is (1/52300) x 3600 kg NG = 0.0688 kg NG, which is close to the 0.072 kg NG per KWh. In other words: the second table should be defined as the amount of fuel to generate 1 kWh. But again this is thermal and not.

Leistung: Geschwindigkeit: Um diese Fahrerleistungs-Gleichung nach V aufzulÃ¶sen, schreiben wir sie zunÃ¤chst in der impliziten Form. und erhalten dann mit den cardanischen Formeln die LÃ¶sungen: Wenn a 2 + b 3 â‰¥ 0: Wenn a 2 + b 3 < 0 (casus irreducibilis; bei hinreichendem FahrbahngefÃ¤lle oder RÃ¼ckenwind): mit DER FTP TEST - SO FUNKTIONIERT ER. February 18, 2016 | Power Analysis. In Ben Shap's letztem Stages Cyclings News Post erklÃ¤rte er, wie man einen Garmin Radcomputer am besten einrichtet, um das maximale aus den Daten, die der Stages Powermeter liefert, herausholen zu kÃ¶nnen. Jetzt, da du perfekt aufgestellt bist, um alle wichtigen.

- Watt-Leistungsmessung: So funktioniert Trainingssteuerung auf dem Rad. Mit Wattmessern lassen sich fÃ¼r Triathleten wichtige Werte ableiten. Wie das Training mit Leistungsmessung funktioniert und wer das braucht, steht hier. Ã„hnlich wie die Pulsmesser vor fast 20 Jahren die breitere Masse nicht nur der Profi-, sondern auch der Hobbytriathleten.
- Specific Energy Density (Wh/kg) 30-50: 45-80: 60-120: 150-190: 100-135: 90-120: Internal Resistance (mÎ©) <100 12V pack: 100-200 6V pack: 200-300 6V pack: 150-300 7.2V: 25-75 per cell: 25-50 per cell: Life Cycle (80% discharge) 200-300: 1000: 300-500: 500-1,000: 500-1,000: 1,000-2,000: Fast-Charge Time: 8-16h: 1h typical: 2-4h: 2-4h: 1h or less.
- Power Watts Notes: Speed : Further results: Effective Drag The rolling frictions of the front and rear wheel tires each are taken into account separately. The calculation also regards the following influences: Load distribution front/rear wheel. At wider tire tends to generate less rolling friction but more air resistance (not true with the streamliners White Hawk and Quest whose fairings.
- In the table below we present the cost per Watt-hour, Specific Energy, that is Watt-hours per kilogram, Joules per kg, and the Energy Density, Watt-hours/liter for various types of batteries. It is not surprising that the well-known Lead-acid storage batteries head the list. Fine for use in our cars, but a little inconvenient in a laptop. And why are Alkaline long-life and Carbon-zinc.

Instant free online tool for watt to kilojoule/second conversion or vice versa. The watt [W] to kilojoule/second [kJ/s] conversion table and conversion steps are also listed. Also, explore tools to convert watt or kilojoule/second to other power units or learn more about power conversions is interfaced with a computer counts each pedal revolution. 1 watt = 6.12 kg-m/min . Peak Power = (4753.9 kg-m/min) / (6.12 kg-m/min) = 776.8 W . Relative Peak Power = Peak Power (W) / Body Mass (kg) = 776.8 W / 73.3 kg = 10.6 W/kg . Average Power: This is simply the average power that is sustained throughout the entire test and is measured in watts. Whereas peak power represents the. 9.1 X 10 -31 Kg. Faraday Constant ( F) =. The amount of electric charge in one mole of electrons N A X e = 9.650 X 10 4 Coulombs/mole (C/mol) Avogadro's Constant or Number ( NA) =. The number of atoms in 12 grams of carbon-12 = 6.02214179 X 10 23. Also = The number of entities in a mole of those entities

kW to 255,600 kW). Table 1provides a complete listing of the avail-able outputs and heat rates of the GE heavy-duty gas turbines. Table 2lists the ratings of mechani-cal-drive units, which range from 14,520 hp to 108,990 hp (10,828 kW to 80,685 kW). The complete model number designation for each heavy-duty product line machine is pro-vided in both Tables 1 and 2. An explanation of the model. From Table A-22, hi = 300.19 kJ/kg and . Prl . 1.386. Since the compressor process is isentropic, the following relationship can be used to determine h2 . fr _ P2. Pr2 P2 prl = (10)(1.386) 13.86 . fz. f ('1... r:;.~ r . Pl . T. --fr. ~ C.f . 1 . Then, interpolating in Table A-22, we obtain h2 = 579.9 kJ/kg. I The temperature . at . state 3 is given as T. J . 1400 K. With this temperature, the. The table below identifies each increment. You must maintain 70 rpm during the test. Be sure and note and record your highest HR during the test. Intensity Level Watts Intensity Level Watts 1 50 17 250 4 65 18 300 7 80 19 340 9 95 20 375 11 110 21 400 12 125 22 415 13 140 23 430 14 155 24 440 15 170 25 445 16 205 VO2max is computed using the following gender specific equations: For Males. - Table 3 : Gasoline > lfiespan per kW = $ 30 kW/4000 h = 0,0075 USD/kW not 0,01 USD/kW. compare Li-ion: 1000/kW devided by 4000 h = 0,4 USD/kW. How cost per kWh are calculated is unclear!-Table 4: If bicycling takes 80W perhaps right for 20 km/h, walking for 5 km/h never ever takes 280 W !!

How to convert watts to calories per hour [w to cal/h]:. P cal/h = 860.420652 Ã— P w. How many calories per hour in a watt: If P w = 1 then P cal/h = 860.420652 Ã— 1 = 860.420652 cal/h. How many calories per hour in 33 watts: If P w = 33 then P cal/h = 860.420652 Ã— 33 = 28 393.881516 cal/h. Note: Watt is a metric unit of power.Calorie per hour is a pre-SI metric unit of power 600 kilogram-meters per minute (kgm/ min) (50 to 100 watts) 3 Male, conditioned: 600 to 900 kgm/min (100 to 150 watts) 3 Female, unconditioned: 300 to 450 kgm/min (50 to 75 watts) 3 Female, conditioned: 450 to 600 kgm/min (75 to 100 watts) â€¢ After the first and second minutes, measure HR and adjust intensity accordingly: 3 Increase the exercise intensity/cycle resistance if the HR is below. VO2 (ml/kg/min) Calories. Instructions. Enter information in left column; select appropriate menus. Click Calculate. This calculator can be used with ergometers with mechanical resistance settings, or ergometers that do not electronically alter resistance to compensate for cycling speed. Also see Electronic Cycle Ergometer Calculator. Accurate requirements: steady state submaximal aerobic. The CRBJT cycle minimizes the contribution of the less efficient isenthalpic (8-12 kW h kg âˆ’1) expansion and reduces energy consumption to 3.6-5.0 kW e h per kg of LH 2. The demonstration of a small-scale (âˆ¼200 kg per day) hydrogen liquefaction plant based on the CRBJT cycle has indicated that an overall thermodynamic energy efficiency of 90% is possible