The Su God of the Reopening of the Sports Arena

Chapter 2435 1965! Asian Record! The Era of Unbeatable Victory is About to Begin

Chapter 2435 19.65! Asian Record! The Era of Unbeatable Victory is About to Begin

Passing the apex of the arc.

After Xie Zhengye's head completed its final slight sway, it quickly returned to its original position, and his cervical spine led his upper body to achieve a "rigid reset".

This move is an extension of his "dynamic balance convergence" technique in the 100-meter dash, marking the completion of the core control task during the arc apex phase.

At this point, the technological benefits brought about by "head shaking" began to be fully released.

The synergistic advantages of the perception system and the power generation system.

This allowed him to execute his technique much more efficiently than his opponents during the downhill cornering phase.

The vestibular system activated when passing the apex of the arc remains in a highly sensitive state, giving Xie Zhengye ultimate control over his body posture.

At the beginning of the downhill curve, the track trajectory changes from "curved contraction" to "smooth transition". Ordinary athletes need to rely on their core muscles to repeatedly adjust their balance, while Xie Zhengye's vestibular system can capture the difference between the body and the track in real time. Through the slight tension changes of the core muscles, it can correct possible posture deviations in advance.

When the body tends to tilt slightly outward due to inertia, the left external oblique muscle contracts instantly, coordinating with the back muscles.

Nip posture deviations in the bud.

No extra stamina is required for significant adjustments.

It has always maintained a stable trajectory of progress.

It looks easy.

In fact, no one in China had ever been able to do this move before.

Exaggeration?
No exaggeration.

Because of physical strength.

Strength intensity.

It doesn't meet the standards.

If it doesn't meet the standards, then go find a technical template.

can only say……

That would be courting disaster.

This is one of the core reasons why China was unable to complete technological upgrades in the past.

If even the basic concepts are not up to par, then don't even dream of making a breakthrough.

Xie Zhengye's current physical condition far surpasses that of anyone in China at the original timeline. If you had to pinpoint a match, it would probably be the intensity of Suarez's performance at the 2015 Beijing World Championships.

Bang bang bang bang bang.

More importantly, the "multi-source perception closed loop" constructed by Xie Zhengye's head movement during the apex phase continues to function.

The visual system uses the stable field of vision after the head returns to center to lock onto the corner marker 100 meters in advance and transmits the track space information to the brain.

The proprioceptive system provides precise feedback on the exertion of the lower limb muscles, ensuring that the push-off action is perfectly matched with the body's forward direction; the vestibular system continuously monitors changes in acceleration, providing a predictive basis for the upcoming straight-line acceleration.

The integration of information from these three sources allowed Xie Zhengye to shift his technical adjustments from "passive response" to "proactive planning," maintaining "zero redundancy in actions" throughout the downhill phase.

Every arm swing and every push-off is precisely aimed at maintaining speed, with no wasted energy or ineffective movements.

In contrast, Zhou Bing's technical shortcomings after crossing the top of the arc gradually became apparent.

His reliance on core muscles to adjust his center of gravity puts him at a disadvantage in the downhill cornering phase, where he faces the test of endurance.

At 88 meters, the core muscles experienced a brief relaxation due to continuous tension, resulting in a 0.003-second delay in the connection between the body and lower limbs in generating force. Although this was forcibly compensated for by increasing the arm swing amplitude, it disrupted the original rhythm of the movement.

Moreover, due to the lack of support from a multi-source sensing system, he was unable to predict changes in the track trajectory in advance. At the 92-meter mark, his right foot did not land properly, and the difference in elasticity of the track's plastic caused abnormal feedback when he pushed off the ground.

The only way to correct errors is by adjusting the step size.

This process not only consumes extra physical strength.

It also causes gaps in the speed transitions.

Liang Jiahong's center of gravity shift error when passing the apex of the arc evolved into "attitude fluctuation" at the 90-meter mark during the downhill phase.

His upper body swayed slightly due to insufficient balance control, which affected the stability of his straight arm swing. He could only maintain balance by reducing the amplitude of his arm swing, resulting in a decrease in forward traction.

Liang Jinsheng's vestibular system was not activated, resulting in a delayed perception of the angle of body tilt.

At 95 meters, they had to deliberately reduce the intensity of their exertion, sacrificing speed in exchange for stability.

Tang Xingqiang and Pan Xingyue's technical execution had become "mechanical repetition," lacking the ability to dynamically adapt to the track and their physical condition, and they were completely pulled away by the top four in the downhill cornering phase.

At the end of the 98-meter downhill curve, Xie Zhengye's technical advantage has translated into a visible lead.

His body posture remains "rigid and stable" at all times, with his core muscle groups acting as precise controllers to keep the error in the coordination of force exertion between the torso and lower limbs to a minimum.

The curved arm swing continued the efficient rhythm after passing the top of the arc, without showing any signs of adjustment as it approached the straightaway.

At this moment, he had already initiated the "straight-line power preparation" in advance—by fine-tuning the tension of the core muscle groups, he slowly shifted his body's center of gravity forward to accumulate power for acceleration from the curve to the straight.

All of these actions were accomplished based on the technical advantage gained during the arc-crossing phase.

Although Zhou Bing remains firmly in second place, he is no longer able to narrow the gap with Xie Zhengye.

Although his stride-type articulated arm technique can maintain a stable forward distance, it lacks the support of multi-source sensing and dynamic balance capabilities, and his technical execution during the downhill phase is always in a "catching-up state".

The spectators in the stands could clearly see that the distance between the two was slowly widening with each step forward. This was not simply a difference in speed, but a gap in the completeness of their technical systems.

Xie Zhengye's technique has formed a closed loop of "perception-stability-power generation", while Zhou Bing and the straight-arm athletes' techniques are still at the level of "power generation in a single link".

Of course, this wasn't Zhou Bing; he didn't want to do that.

It's entirely because of a lack of ability.

Unable to handle.

Therefore, even if he tried his best, this is the best he could do. There are many things you can't do just because you want to, and it's certainly not something you can master by simply watching someone and imitating their movements. If that's the case, then I can only say you need to get your eyes checked—

Let's see if you have Sharingan or something.

Moreover, Xie Zhengye today is not the same person he was 10 years ago.

I was just a little kid back then.

He's not the same person he was five or six years ago.

He is now a fully grown adult male.

Even on the straight road.

Xie Zhengye's abilities here also far surpass Zhou Bing's.

Turn the corner and go straight!
Xie Zhengye's figure had already approached the entrance to the straight. He kept his head steady and neutral, his eyes locked on the straight track ahead. Although the "head-shaking" phase at the top of the arc had ended, the technical benefits it brought continued throughout.

From precise control of the center of gravity to the efficient operation of the sensing system, from the optimization of energy consumption to the stability of the movement rhythm, every technical detail is accumulating power for the upcoming straight-line showdown.

Meanwhile, their rivals are still working hard to make up for their technical shortcomings in the arc-top phase. This gap created by "arc-top technique" has become the key to determining the final outcome.

Xie Zhengye.

It's time to start your own personal struggle.

If Su Shen doesn't step up, no one in the country can threaten him.

The junction between the end of the curve and the entrance to the straight.

This is a crucial juncture in the 200-meter race, shifting from "curving technique dominance" to "straight-line efficiency as the deciding factor".

Xie Zhengye, having practiced for so many years, naturally agreed wholeheartedly.

The technological advantages accumulated during the arc apex phase are transformed into "seamless" acceleration capabilities. The core logic lies in the "perception-stability-power exertion" closed loop built during the arc apex phase.

This extends to the switching of straight-line power delivery mode.

The multi-source perception system activated when passing the apex of the curve allows Xie Zhengye to achieve the ultimate control over the timing of the transition from the curve to the straightaway. The visual system locks onto the ground markings at the start of the straightaway through a stable field of vision, transmitting a "switching signal" to the brain 0.1 seconds in advance.

The proprioceptive system provides synchronous feedback on the force exertion of the lower limb muscles, ensuring a seamless transition from "asymmetry between the inside and outside feet in curves" to "balance between both feet in straight sections" during the push-off motion. The moment the body enters the straight section, the core muscles immediately initiate a "force exertion mode switch."

The shift from "lateral tilt for stability" during curves to "forward tilt for propulsion" on straightaways is not an abrupt change, but rather achieved through a gradual change in the tension of the core muscle groups.

The intensity of the rectus abdominis muscle activation gradually increases from 70% to 80%, while the erector spinae muscles adjust simultaneously, increasing the forward tilt angle of the trunk from 34° to 36°. This preserves forward momentum while providing stronger forward traction for acceleration on straightaways.

In contrast, Zhou Bing's technique still suffers from a "lag". He lacks Xie Zhengye's multi-source sensory coordination and can only rely on a "preset rhythm" to complete the switch. When the body enters the straight section, the core muscles need to expend extra energy to correct the postural deviation caused by the poor connection.

In order to maintain his stride advantage, he had to increase the forward and backward extension of his bent arm swing, trying to make up for the gap in the connection of force through the traction of the arm swing. However, due to the decline in the coordination of the movement, some of his physical strength was wasted in ineffective arm swings.

The gap in technical execution efficiency between Xie Zhengye and Xie Zhengye has widened further.

The technical weaknesses of the other players were fully exposed at this stage.

Liang Jiahong's adjustment of the straight arm swing from "wide curve" to "standard straight curve" took too long, disrupting the original power generation rhythm.

He attempted to imitate Xie Zhengye's core power conversion, but due to a lack of technical accumulation in "dynamic control ability" for turning from a curve to a straight road, his torso leaned forward at varying angles, causing fluctuations in his forward trajectory.

Liang Jinsheng, Tang Xingqiang, and others, due to the balance loss during the arc phase, had no extra energy to optimize their techniques and could only passively maintain basic movements.

The gap with the first tier has shifted from being "catchable" in terms of technology to being "difficult to reach" in reality.

Enter the main straight road.

Xie Zhengye's technological advantage has shifted from "connection efficiency" to "continuous and stable output".

The principle of "few redundant actions" was consistently applied during the polishing process at the top of the arc.

The trajectory of the arm swing is strictly limited to the "parallel front and back" range to avoid consuming energy by swinging laterally.

The core muscles maintain stable tension at all times, ensuring that the propulsive force from the lower limbs pushing off the ground is fully converted into forward distance, rather than wasted on body swaying.

More importantly, the optimized energy metabolism pattern continues when crossing the top of the arc. The high sensitivity of the vestibular system allows him to accurately perceive muscle fatigue signals. By fine-tuning the center of gravity of the core muscle groups, he prioritizes the allocation of physical strength to the key links of pushing off the ground and swinging the arms, thus achieving "minimizing endurance consumption and maximizing speed output".

Although Zhou Bing tried his best to maintain a stable stride during the straightaway phase, his endurance gradually became insufficient due to the physical exertion from the earlier technical transitions. His core rigidity began to decline, and in order to avoid deforming his movements, he had to appropriately reduce the intensity of his force exertion. His original stride advantage gradually weakened due to the lack of sustained energy support.

The remaining players have completely hit a "technical bottleneck"—

Technological differences.

This causes the disadvantage of force transmission efficiency to be amplified infinitely in long straight sections.

Each arm swing requires more stamina than a double-bend arm swinger.

Ultimately, it can only be achieved under the dual pressure of endurance and speed.

Watching Xie Zhengye's figure grow smaller and smaller as he walked further and further away.

His segmentation and arrangement were not as good as Xie Zhengye's.

On Xie Zhengye's side, in the early stages of the straightaway, Xie Zhengye's primary task was to transform the "transitional force exertion" when crossing the arc apex into "straightaway translational force exertion".

At the heart of this process is to leverage the synergistic advantages of multi-source sensing systems:

The visual system locks onto the finish line at the far end of the straight path and transmits "direction anchoring" signals to the core muscle groups through the cerebral cortex.

The proprioceptive system provides feedback on the angle of the lower limb joints, ensuring that the direction of the feet pushing off the ground is completely parallel to the center line of the straight track.

The vestibular system monitors changes in body acceleration to prevent imbalance caused by sudden turns into straight paths.

Based on this sensory loop, his core muscles initiate a "force transfer"—shifting from "lateral support" in the curve phase to "forward leaning boost" on the straight.

This is not a simple angle adjustment, but is achieved through gradient tension changes in the rectus abdominis and erector spinae muscles:

110米处，腹直肌发力强度从70%提升至75%，竖脊肌同步放松10%，带动躯干前倾角度从34°缓慢增至35°。

At 120 meters, the force intensity of both was further optimized to 80% and 5% respectively, and the angle was stabilized at 36°.

This gradual adjustment allows the body to smoothly transition into the straightaway power logic while retaining the inertia of the curve, avoiding speed loss caused by a sudden change in power mode.

In contrast, Zhou Bing's straight-line power generation appeared rushed. He lacked precise guidance from multiple sensory sources and could only rely on muscle memory to forcibly switch power generation modes. At the 115-meter mark, due to the excessively rapid adjustment of core muscle tension, his upper body briefly leaned backward, forcing him to correct his posture by increasing the range of his arm swing.

This process not only consumes extra physical strength, but also causes a 0.002-second gap in the force of pushing off the ground.

The technical shortcomings of the remaining individuals became even more apparent at this stage.

For example, when Liang Jiahong switched from "wide curve" to "standard straight curve" in his straight arm swing, due to a lack of perception and coordination, the adjustment of his movements and the rhythm of pushing off the ground were out of sync, and the fluctuation in stride frequency at 120 meters caused a brief drop in speed.

For example, Liang Jinsheng suffered from balance loss during the arc apex phase, resulting in insufficient core stability when exerting force on the straightaway. He could only achieve posture stability by reducing the swing arm amplitude, which significantly reduced forward traction.

Middle section of the straight road.

The middle section of the straightaway is the "critical period" of endurance depletion. In the low-oxygen environment, the rate of lactic acid accumulation in muscles accelerates, testing the athlete's ability to "maintain technical integrity".

Xie Zhengye's strategy stemmed from the optimized "energy distribution logic" when crossing the apex of the arc.

By capturing muscle fatigue signals in real time through a multi-source sensing system, physical strength can be precisely allocated to key aspects.

At 135 meters, his quadriceps sent a slight fatigue signal, which was immediately relayed to his brain by his sensory system, and his core muscles then made a slight adjustment to his center of gravity.

The power generation during the push-off is shifted from the quadriceps to the hamstrings, while simultaneously reducing the radius of force exertion during the arm swing and shifting the power source from the shoulder to the elbow, thus reducing upper limb muscle strain. This adjustment involves "localized load reduction and focused speed maintenance."

No need to change the overall motion framework.

However, it can effectively delay the accumulation of lactic acid.

Ensure that the coordination accuracy between the swing arm and the push-off does not decrease.

At this stage, Zhou Bing was caught in a dilemma of "endurance alone".

His stride-based technique requires extremely high core rigidity. At 140 meters, core muscle fatigue leads to a reduction in the forward movement of the hip joint, and the stride length advantage begins to weaken.

In order to maintain stride length, he had to forcefully increase the intensity of his lower limb exertion, which accelerated the fatigue of fast-twitch muscle fibers, and the force of his push-off at 145 meters showed obvious fluctuations.

However, he is quite experienced.

They quickly regained stability.

Liang Jiahong's straight arm swing force transmission efficiency was already low. After 140 meters, due to physical exertion, the traction force of the swing arm on the ground decreased by 15%.

The speed continued to decline.

Tang Xingqiang and Pan Xingyue were no longer able to maintain basic technical movements. Their arm swing amplitude was inconsistent, and the deviation of their feet when pushing off the ground was increasing. Not to mention the top two, the gap with Liang Jiahong continued to widen by 1.5 to 2 body lengths.

The last fifty meters.

Xie Zhengye has already secured the victory.

But victory was not what he wanted.

Or it's not just what he wants.

In the latter part of the straightaway, Xie Zhengye took the principle of "few redundant movements" to the extreme.

The core of this phase is to eliminate all unnecessary energy consumption through technological fine-tuning.

His neck muscles remained relaxed.

Keep your head stable and neutral, and avoid unnecessary movements that could disrupt your center of gravity.

Shoulders should be naturally lowered to reduce the impact of air resistance on the upper limbs; the feet should land precisely directly under the body's center of gravity. This avoids energy loss due to landing deviation.

More importantly, the neuromuscular control efficiency activated when crossing the apex of the arc is still at play. Electromyographic signals show that the coordination error between his core muscles and lower limb muscles is consistently controlled within 0.003 seconds, and the ground reaction force of each push-off is efficiently converted into forward propulsion.

At 160 meters, fatigue accumulates.

Xie Zhengye possesses a natural talent for speed and endurance.

but……

That doesn't mean you're not tired.

These are truly two different concepts.

His visual system quickly captures changes in wind speed.

Scientific wind-control technology is being developed.

The vestibular system provides synchronous feedback on the body's balance status.

The core muscles instantly make subtle adjustments to the torso tilt angle.

To minimize the impact of wind resistance.

The rhythm of the movements remained perfectly intact.

Zhou Bing was the exact opposite.

"Redundant actions" began to appear in the technical execution.

At the 165-meter mark, fatigue caused his arm to swing slightly laterally, which not only consumed his energy but also generated a component force in the opposite direction of his forward movement, hindering his speed increase.

He tried to compensate by adjusting his breathing rhythm, but the disconnect between his breathing and movements further disrupted his power generation logic.

But the good thing is.

He pushed himself to the limit.

That's why.

It's not just Xie Zhengye; perhaps only Ogunode in all of Asia could get them to give their all.

Su Shen?

That's a 200-meter ride for fun.

Zhou Bing was not included in the calculation at all.

Liang Jiahong, Liang Jinsheng, and others have completely become "technical followers." Their movements are entirely based on imitating the athletes in front of them, but due to a lack of core technical support, their imitations are only superficially similar, which actually exacerbates their physical exhaustion.

This is the consequence of blindly imitating.

Without scientific theoretical support, mere imitation may result in something that is neither fish nor fowl.

In the end, they gained nothing.
179 m.

At the end of the straight, Xie Zhengye initiated the "finish line preparation" process, which is an extension of the 100-meter finish line technique, but has been optimized to meet the endurance requirements of the 200-meter race.

His core muscles began to accumulate explosive power in advance, with the tension of the rectus abdominis and latissimus dorsi muscles increasing to 85%, and the forward tilt angle of his torso stabilizing at 36°, storing potential energy for his torso to cross the finish line.

At the same time, the frequency of arm swing should be kept stable to avoid deformation of the movement due to hasty acceleration.

At 185 meters, his perception system completed the "final environmental scan".

After confirming that there are no abnormalities on the track and that the wind speed is stable, the brain sends a "sprint command" to all muscle groups in the body.

At this point, the technical advantage accumulated during the arc-top phase has been fully converted into a winning advantage.

Multi-source sensing ensures accurate direction, core stability guarantees undistorted movements, and energy distribution ensures ample endurance reserves.

His body is like a precisely tuned machine, with every technical aspect serving the final sprint to the finish line.

Zhou Bing was powerless to turn the tide at this point. At 185 meters, his core rigidity dropped drastically, his upper body swayed noticeably, and his stride length decreased from 2.5 meters to 2.3 meters. Although he tried his best to increase his arm swing frequency, he was unable to generate effective acceleration due to the decline in technical coordination.

The remaining participants have already entered "completion mode".

Technical maneuvers can only maintain the basic framework.

The all-out sprint turned into "maintaining the pace to finish the race".

This made them understand.

Many things seem simple.

In fact, it's not easy to do at all.

At 190 meters, Xie Zhengye's body had entered a "finishing burst state," and the technical advantage he had built up during the arc phase was now condensed into the final decisive force.

The multi-source sensing system has completed its "final calibration".

The vision system locks onto the electronic sensing area of the finish line, precisely locating the optimal angle for the torso to cross the line.

The proprioceptive system provides feedback on the current tension of the core muscle groups, ensuring that the force exertion is within the "critical high-efficiency zone".

The vestibular system is completely stabilized, preventing posture fluctuations before crossing the finish line.

Based on this precise sensing, he initiated the "core contraction and force exertion" technique for reusing the 100-meter sprint finishing line.

The rectus abdominis and latissimus dorsi muscles instantly reach 90% tension, like two splints fixing the torso into a "rigid plane".

At the same time, using the momentum of the arm swing backward, the chest cavity is pushed forward half an inch. This movement is not intentional, but rather an "instinctive execution" driven by muscle memory.

Dynamic balance training when crossing the apex of the arc.

This allows him to control the "tips crossing the line" with millisecond precision!
No need to look up for confirmation.

Then you can sense the relative position of your body to the finish line.

Feel good!

The wind speed is great!
So……

We must not let them down!
195 m.

Xie Zhengye's swing arm completed the "last efficient traction".

The swing amplitude of the arms is narrowed to 28 centimeters, the elbow angle is stabilized at 85°, and the arm swing trajectory is completely parallel to the forward direction of the torso, avoiding any lateral force consumption.

At this time, although his lower limb muscles were slightly sore due to the exhaustion of endurance, they were able to recover thanks to the rigid transmission of the core muscles.

The propulsive force from pushing off the ground remains at 85% of its peak value.

Every step felt like a precise tap towards the finish line.

That's how terrifying a historically great speed endurance machine is.

Zhou Bing launched his "final sprint" at the 190-meter mark, but due to the physical exhaustion from the earlier technical transitions, he struggled to achieve an effective breakthrough. He attempted to narrow the gap by extending his stride length, reaching 2.65 meters at the 192-meter mark, his maximum stride length throughout the race. However, due to insufficient core rigidity, his upper body tilted by 0.5 degrees, causing a lateral component to the ground reaction force. This not only failed to increase his speed but also wasted his precious endurance reserves.

At the 196-meter mark, his arm swing and push-off rhythm became disconnected. When his arm swung forward, it coincided with the landing of his feet, causing a conflict in power generation and halting his speed increase.

Of course, you can understand it in a simpler way.

tired.

In short, it's that simple.

Therefore, it is no longer possible to perform some of the technical actions that one wants to do.

Xie Zhengye's shot came too fast, leaving Xie Zhengye somewhat unable to keep up.

Moreover, his relentless drive to catch up had taken a toll on his health.

If it weren't for the strong winds pushing it, it would have used scientific wind-control technology as well.

It is estimated that a significant landslide will occur here.

As for businesses and individuals, there's not even a connection that gets within a few meters of them.

right in front of you.

Xie Zhengye wants to defend his position as the world's third-largest economy.

They must produce a similarly convincing result after Gatlin broke 19.70 seconds last year.

To reach the finish line.

Bang bang bang bang bang.

Bend over.

It's okay if the amplitude isn't as large as 100 meters.

After all, this is 200 meters.

You only need to ensure a 200-meter stretch of the line.

Technologies have commonalities, but also differences.

You must never try to find a sword by marking the boat where it was moored.

197 m.

198 m.

199 m.

……

call----------

Xie Zhengye!
Press the line!

What were your grades?

This is what he cares about most right now.

After crossing the finish line, Xie Zhengye continued running for about 5 meters before slowly stopping, where he held his knees and gasped for breath.

The "head-shaking" motion at the top of the arc, the precise control during the straightaway, and the explosive burst of energy before crossing the finish line—all the technical details form a perfect closed loop at this moment.

He has achieved the vision he had in his mind.

He has done what he was supposed to do.

The rest depends on the results.

Let's see if I can break the 19.70-second barrier.

Turn around and look.

Xie Zhengye suddenly felt that breathing was no longer so difficult.

It was as if the surrounding air had become fresher.

Because it's on the large electronic timer that runs to the edge on the left.

It displays a clear number.

19.……6.

You don't need to look at anything else, just look at this number 6.

Xie Zhengye felt that he had regained his energy and spirit.