Calculator Results

Revision as of 15:00, 29 October 2015 by User:Fellrnr (User talk:Fellrnr | contribs)

Revision as of 15:00, 29 October 2015 by User:Fellrnr (User talk:Fellrnr | contribs)

Contents

1 FIRST Training Pace

These training paces are used in FIRST, (Furman Institute of Running and Scientific Training) programs. These paces are calculated, so may differ by a second or so from the published tables

1.1 FIRST Tempo and Interval Training

The 3200 meter pace is not included in the book, but the FIRST team has indicated that it can be calculated from the 1600M time.

1.2 FIRST Long Run

Paces for long runs based on the FIRST approach of using Marathon Pace (MP) plus a fixed number of seconds per mile.

1.3 Fellrnr's Modified FIRST Long Run

This is my personal modification to the FIRST approach of adding a fixed number of seconds per mile to marathon pace. I believe that adding 15 seconds/mile to a 6:00 pace is a much greater difference than adding it to a 10:00 pace. The figures below add a percentage of the MP to the time. The percentage is calculated so that it the average across the main VDOT values is similar to the FIRST values. This gives slower runners a larger offset from MP than faster runners.

2 Jack Daniel's Training Paces

The calculation of these paces has been removed at the request of Jack Daniels.

3 High Intensity Interval Training and Tabata Paces

I don't generally recommend using running for High Intensity Interval Training (HIIT) workouts because I believe that for many people there is less risk of injury by using a stationary bike. However, if you'd like to know what your paces would need to be here's a table for some of the more common HIIT intensities. (170% V̇O2max corresponds with the intensity used by the Tabata protocol).

4 V̇O2max Paces

Sometimes it is useful to know what pace corresponds to a given percentage of VO2max, so the table below provides some estimates.

5 Long Run Difficulty

The table below shows the percentage of Glycogen used on runs of different length and pace. This is one way of evaluating the relative difficulty of different longer runs. The table makes use of a number of assumptions, as listed below, but I believe this is still a useful way of evaluating training runs.

  • The calculation assumes that the marathon distance at marathon pace uses are hundred percent of available Glycogen. However the percentages can also be looked at as a percentage of the difficulty of the marathon race.
  • The research article by Romijn in 1993 provides the calculation for relative Glycogen use a different intensity exercise. (For those interested, the formula used is y = 0.0021x2 + 0.7896x - 21.031, where X is the percentage of V̇O2max and Y is the relative percent of Glycogen used.)
  • 100% of V̇O2max (vV̇O2max) is assumed to be .
  • The energy cost of running a given distance is assumed to be constant, allowing the percentage of V̇O2max to be determined by running speed.
  • The calculator assumes that the rate of glycogen consumption remains constant for a given pace.
  • Remember that All models are wrong.

5.1 Long Run Difficulty with Absolute Offsets

Many marathon training plans use an absolute offset from marathon pace for their long runs, such as "marathon pace plus 60 seconds/mile". The table below uses this approach, even though it has the flaw that a fixed offset is proportionally larger for faster paces. For instance, slowing up by 60 seconds per mile is a much greater reduction in pace for someone with a marathon pace of 6:00 min/mile than someone running 10:00 min/mile.

5.2 Long Run Difficulty with Relative Offsets

The table below uses a similar approach, but uses a percentage of the target pace rather than an absolute offset.

6 Predicted Race Times

The following tables give predictions of race performance at various distances. The prediction uses V̇O2max calculations up to marathon distance, then David F. Cameron's Model for longer distances. However, predicting race performance for ultramarathon distances does not have much value as factors other than aerobic fitness are significant. Even small issues in ultramarathons can have a dramatic impact on your finish time.

6.1 Predicted Race Paces from VDOT with Heat Index Adjustment

The predictions for 40f are the baseline values, with adjustments for higher temperatures. The Impact of Heat on Marathon Performance is based on research for faster marathon runners. These predictions are most appropriate for someone running a three hour marathon. In addition, these figures are a statistical average, so individual performance can be significantly different.

6.2 Weight Adjusted Race Times

Adjustments based on changing body weight assume that the change occurs only from body fat, which may not be the case. See Weight Loss and Performance for more details.

6.3 Altitude Adjustment

This table shows how altitude can impact running performance. The same scaling factor is used for all distances and the calculation assumes you are well acclimated to the altitude.

7 Long Runs for Jack Daniels Marathon Plans

The tables in Jack Daniels books are complex, and it is not obvious what the total distance, time or difficulty is for of some of these long runs. For instance, how far would you have to run for the workouts below?

2E + 2x 1T w/1 min rest + 2x 2T w/2 min rest + 2 x 1T w/1 min rest + 2E
2E + 3T + 40 min E + 2T + 1E

This calculator would give you the answer for all the long runs, but unfortunately, Jack Daniels requested the removal of this part of the calculator.