Contents

- 1 What is a good FTP Watts?
- 2 What is a good average FTP?
- 3 What is a decent FTP score?
- 4 How do you calculate Cycling FTP?
- 5 What was Lance Armstrong’s FTP?
- 6 What is a pro cyclist FTP?
- 7 What is a good FTP for a triathlete?
- 8 Is 4 watts per kg good?
- 9 Is 150 watts good cycling?
- 10 What is the 75 rule in cycling?
- 11 How quickly can FTP increase?
- 12 What does my FTP score mean?
- 13 What is a good power to weight ratio cycling?
- 14 How do I find my peloton FTP?
- 15 How do you calculate watts per kg cycling?

## What is a good FTP Watts?

FTP in watts for males 49% of people have an FTP below 260W. 44.3% of people have an FTP of 270W or more. 6.7% of people have an FTP between 260W and 270W.

## What is a good average FTP?

The article claims that a typical fit cyclist might be able to crank out 250 to 300 watts as an average for a 20 minute FTP (functional threshold point) test, while the pros usually average 400 watts.

## What is a decent FTP score?

How ‘good’ is your FTP?

World Class Pro | Cat 4 and 5 | |
---|---|---|

Male | 5.6 – 6.4 w/kg | 2.4 – 3.6 w/kg |

Female | 5.3 – 5.6 w/kg | 2.0 – 3.1 w/kg |

## How do you calculate Cycling FTP?

Cycling. Functional Threshold Power ( FTP ): You can estimate FTP with your best recent 20-minute power value (either from a dedicated 20-minute test or a sufficiently hard 20-minute effort from a race or workout ). Multiply that value by 95% to get your FTP.

## What was Lance Armstrong’s FTP?

Lance Armstrong said he used to be able to average 495 watts for 30-40 minutes.

## What is a pro cyclist FTP?

FTP is the acronym for Functional Threshold Power. In theory this is the max power that you can sustain for an hour’s riding. Once you know this number, it’s then used to set your training zones and help you gauge your riding efforts.

## What is a good FTP for a triathlete?

IRONMAN POWER OUTPUT GUIDE

- 8 to 9 hour Ironman athletes aim for 78 to 80% of FTP.
- 9 to 10 hour Ironman athletes aim for 76-78% of FTP.
- 10 to 11 hour athletes aim for 74-76% of FTP.
- 11 to 12 hour athletes aim for 72-74% of FTP.
- 12 to 13 hour athletes aim for 70-72% of FTP.
- 13 to 14 hour athletes aim for, 68-70% of FTP.

## Is 4 watts per kg good?

So it is that many club level cyclists have the goal of being able to achieve a functional threshold power (FTP) of 4W/ kg. However, 4W/ kg is still better than most club level cyclists, and is literally lapping everyone on the couch. So it’s a great goal to target.

## Is 150 watts good cycling?

Most pro cyclists produce about 200 to 300 watts on average during a four-hour tour stage. The challenging part about watts is understanding what, say, 150 watts mean for you.

## What is the 75 rule in cycling?

The 75 -percent rule states that during a given training week, at least 75 percent of your miles (or time) should be at or below 75 percent of your maximum heart rate (MHR).

## How quickly can FTP increase?

In many cases, I recommend adding 2-3 recovery weeks spaced throughout this time. So for most athletes coming off a period of reduced or less focused training, it takes around 10 weeks to begin to see FTP gains.

## What does my FTP score mean?

Simply put, FTP is the average number of watts that a rider can sustain in an hour, and acts as a current measure of fitness. Ideally, it refers to a steady effort, not the up-and-down levels you might see looking at your power from a hilly ride or cyclocross race.

## What is a good power to weight ratio cycling?

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 do I find my peloton FTP?

To get started with power zones, head to the Account Settings section on your Bike under My Info. Enable power zones, then enter your best average output, or Functional Threshold Power ( FTP ), for a 20-minute class. You’ll now see your power zones when you ride.

## How do you calculate watts per kg cycling?

To work out your power-to-weight ratio figure, simply divide your maximum power output (in watts ) by your body mass in kilograms ( kg ). For example, an 80kg rider with a maximum sustainable power output of 280 watts has a power-to-weight ratio of 3.5 watts per kilo (commonly abbreviated as 3.5W/ kg or 3.5W. kg -1).