## The difference between air and magnetic rowing machines

It is a common misconception that air and magnetic rowing machines work the same way – and produce similar results – but nothing could be farther from the truth.

## Quantitative Differences

Air and magnetic rowing machines rely on the same stroke technique – and produce similar levels of aerobic and anaerobic benefits – but they do it differently.

Air rowing machines rely on the force produced by moving arms and legs against the wind produced by the fan. The force produced by the legs is much greater than the force produced by the arms. An average 170-pound person will exert about 180 pounds of force on the straps with his or her legs and about 50 pounds with his or her arms. The greater force produced by the legs drives the rowing machine’s piston to move the handle, and the resistance is adjusted by increasing or decreasing the speed and/or fan setting. Because the handle always moves at the same speed as the piston and the resistance is independent of the stroke rate except for the increase from acceleration, the fluid-based piston-drive resistance mechanism provides a relatively uniform resistance to the pull from beginning to end of the stroke.

Air rowing machines produce a similar amount of resistance at the beginning of the stroke as they do at the end of the stroke. In comparison, magnetic rowing machines rely on the force of the steel – and the magnetic – rods to provide resistance. The handle moves at a slight angle – about 3 degrees – from the vertical track at the end of the stroke and a slight angle – about 4.5 degrees – from the vertical at the beginning of the stroke. The stroke rate does not have any impact on the amount of resistance felt by the user. At the completion of the stroke, the user’s hands are above the user’s knees, and as soon as he or she begins to move his or her hands, the magnetic resistance increases to match the force being applied by the arms and the rod that comprises the handle begins to turn. Therefore, as the user begins pushing the handle, the resistance goes from zero to about 100 pounds. As the handle continues through the stroke, the resistance remains about 100 pounds except for a slight drop near the completion of the stroke due to the rod’s slight angle from the vertical at that point in the stroke. Therefore, in comparison, magnetic rowing machines provide about the maximum resistance at the beginning of the pull and then gradually increase their resistance at a linear rate throughout the stroke.

Air and magnetic rowing machines both adapt to the user’s unique power characteristics. Neither machine is fluid-based, so they both use “set” magnet type. Fluid is moved through the resistive element of the piston in the air rowing machine and the magnets in the pulling element of the magnetic rowing machine. Both elements can vary in resistance, so they both adapt to the power characteristics of the user. For example, in the air rowing machine, the handle will begin to move at a slower rate when the user is pulling more than five pounds of resistance. The handle will also begin to move at a slower rate in the magnetic rowing machine when the magnets feel more than five pounds of resistance in their movement. Both machines monitor the user’s power when the user is pulling one to 10 pounds of resistance.

As with all resistance-training exercises, air and magnetic resistance is reduced in relation to the degree of muscular fatigue; however, the degree to which the resistance is reduced varies between air and magnetic rowing machines. With air rowing machines, the majority of the resistance change is due to the force produced by the body against the fan. At the beginning of the pull, the resistance is fairly small, but it quickly builds to a moderate amount, then gradually increases to a peak, then gradually decreases over the remainder of the resistance curve. The handheld fan is fairly heavy, so its speed of movement is relatively slow, so it takes more time to get through the resistance curve. The pull of the magnetic rowing machine is faster, so its speed of movement is faster, so it takes less time to get through the resistance curve. The resistance starts fairly slowly at about five pounds, then fairly quickly reaches between five and 20 pounds of resistance, then fairly slowly increases to approximately 35 pounds. At this point in the resistance curve, the amount of resistance increases more quickly, then more gradually increases to the end of the resistance curve at about 80 pounds.

This constant resistance provided by magnetic rowing machines compared to the variable resistance provided by air rowing machines provides magetic rowing machines with some significant advantages. For example, although both magnetic and air rowing machines are typically used at the level of one’s pulmonary threshold, improvement of muscular endurance is typically greater in magnetic rowing machines because of the constant resistance enjoyed by the user. Also, not only is muscular endurance greater in magnetic rowing machines, so is maximum strength and power, and so is aerobic and anaerobic conditioning. I attribute the greater strength and power and greater aerobic and anaerobic conditioning improvements to the higher force and power and resistance and resistance rate and power and force and power and resistance variability experienced by the user.

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As you might imagine, this constant tension place on your muscles and joints can lead to feelings of discomfort and/or soreness in your muscles and joints. Therefore, the proper rowing machine exercises and rowing technique need to be developed. The rowing technique can be developed in a rowing machine or in a boat; but a boat will give the person a great deal more feedback and self-control over the boat and provide a much better environment in which to develop and practice proper rowing technique. Modern rowing shells and sculls and kayaks and canoes and other boats that replicate them are great tools for developing and practicing proper rowing technique. They provide much better feedback to the person, and they provide the person much more control over them, and therefore much more control over his or her rowing technique.

## The Rowing Exercises for Rowing Machines

Air rowing machines have a very real benefit in that they can be purchased for a very reasonable price and they can fit into a person’s home. The disadvantages of them include a fairly uncomfortable seat, a limited resistance curve, a fairly loud noise, and a fairly large footprint. Magnetic rowing machines have a fairly small footprint, but they can cost a bit more, and they have a fairly loud noise, and the resistance curve is limited. In addition, they require a bit more physical exertion from the user. Most people that have access to boats have access to a boat dock. So perhaps a compromise can be made. The person may want to purchase a boat and/or a magnetic rowing machine to help train for his or her rowing technique. The person can also use a stationary bike or a treadmill or a stepper or a stairclimber to do some of his or her aerobic training. He or she can also complete some of his or her rowing exercises in his or her gym.

In conclusion, air and magnetic rowing machines provide a fairly different resistance profile, and therefore a fairly different response from the user. The limitations of air rowing machines makes it a less-than-optimum contending factor for racing, but it does provide significant health-related benefits if the proper form is used during use. The constant tension across all muscle groups provided by magnetic rowing machines makes it an ideal contending factor for racing, but the limited lifespan of the user with magnetic rowing machines makes it a less-than-optimum contending factor for health-related benefits. Therefore, I recommend that people develop their training with both air and magnetic rowing machines with the goal of racing on air rowing machines and using magnetic rowing machines with the goal of producing the greatest amount of health-related benefits.

## Balancing Workouts And Rest: A Few Easy Tips

It’s good to workout and discover your athletic potential. However you can’t do too much. The first few years you should take a workout a week and do a lot of rest days. As you get older, you should increase the workouts and reduce the rest days. As a 70-year old should have no rest days. 3 days a week you should run 2 miles 2 times a day, 1 day a week do up to 65 push ups and 65 sit ups or pull ups. How to prepare yourself for a workout

The only thing you have to do to prepare yourself for a workout is to take a shower. Don’t have a meal before a workout, you don’t want anything in your stomach. Also stay away from coffee the night before a workout. You want a solid night sleep and a strong mind. I would also recommend going to a workout with a friend.

These are the workouts I have myself take and have others take. I have a 3 day a week program for running.

Monday is the sprint workout. I will warmup, then run 20 seconds at 100% speed, then 20 seconds of walking. Repeat this for 4 times. On this day I wear a weighted vest. Doing this, I mainly improve my speed.

Tuesday is the endurance workout. I run 2 miles at 80%, walk 2 minutes, run 1 mile at 100%, walk 2 minutes, run .5 mile at 100%. I cycle my speed like this 4 times, totaling 2 miles the first time, 1 mile the next time, .5 mile twice. On this day I don’t wear my weighted vest.

Wednesday I take off. Or sometimes do the endurance workout again. This day I always do pull ups and sit ups. Sometimes I do pull ups after the endurance workout.

There is also a 2 day a week workout.

On day 1 I do my endurance workout with the weighted vest, then after running I run .25 miles 2 times at 100%.

Day 2 is both endurance and sprint. I jog 2 miles, run 1 mile at 100%, jog .25 miles 2 times at 100%.

You can also use this workout to keep yourself in shape. Do the endurance workout with no weighted vest after 3 days off. That way you are current on your endurance.

You can do this during any season, or it can be your off season, or it can be your only season.

## The Beauty Of Rower Training

It is a question of resolve, of will. I am going to row directly into the pain. I will row faster and faster. Blood will pool in my head and turn my vision red. My whole body will ache, and there will be a rictus of agony on my face. I will row until the pain is blinding, until it shuts out everything, until I can’t think of anything but my stroke rate and the water on either side of the sculls. And then if I’m still awake, I’ll row on.

In a rowing machine the law of the lever is no longer that which determines the speed of the boat—it is the human body, inverted at a 90-degree angle, pulling on pair of lever arms. This means that a trainer on a rowing machine can measure how hard you’re working on a scale of 1 to 5, with 1 being an “active recovery” pace (https://www.medicalnewstoday.com/articles/active-recovery) and 5 being flat out. The goal is to stay at 4, because 5 is unsustainable for any length of time. At 4, the heart rate stays in the training zone, the lactic acid builds up just enough to provide an edge without inducing exhaustion, and the calorie count soars.

When you use the machine in the way it is intended—as a tool for structured interval training—it can be one of the best strength-building machines in the gym. At moderate weights it is the closest thing there is to real rowing, because it forces you to use all the muscle groups that you use in real rowing. There are, however, certain machine-training protocols that are better than others, and if you employ them you will wind up with much better preparation for an actual workout, or for competition. The main hazard in using the machine is the tendency to overtrain; when you work out on a rowing machine you use your muscles in an explosive manner, and you therefore exacerbate muscle-lengthening contractions in the muscle cells. The result is that after each workout your muscles will be in need of considerably more recovery time than they got in the previous week.

## Why BodyTracking Matters

Are you currently keeping track of your body metrics? Let me be honest with you, up to 6 months ago, I wasn’t. And I would laugh at anyone that was serious about using fitness trackers or Apple watches.

But all this has changed since my wife gave me a fitness tracker for my birthday. (I am still not sure if she was just trying to mess with me:). Either way, once I started using this simple tracker I quickly became hooked.

There is just so much to be learned from keeping track of a few simple vitals. Once you take a step back and look at your heart rate for the last month it becomes incredibly easy to spot patterns.

For example, I discovered that I could work out more efficiently by training shorter and with higher intensity.

I also learned that my sleep during weekdays was definitely not good enough. And, this motivated me to change my daily schedule and get a lot better sleep.

Making just these two seemingly small improvements has had a powerful effect on my life. I have more time for leisure and spend less time working out. But, I am also more effective in my work and have seen rapid gains in my fitness.

Let me know how you are using fitness or body tracking to improve your life. Or if you think it’s complete bull#\$!! and why.

Have a great day!!