The Su God of the Reopening of the Sports Arena

Chapter 2463 Are there any strong individuals in this group? I didn't sense any.

Eight figures walked out of the athletes' tunnel one after another.

She instantly became the center of attention.

Femi Ognod, the athlete in lane 3, was the first to attract attention. The Qatari star, born in 1991, was wearing a black tight-fitting suit with Qatar's iconic yellow stripes, and his muscles were smooth and explosive.

He put his hands on his hips, slowly walked to the side of the track, his sharp eyes scanning the track ahead, occasionally raising his hands to stretch his shoulders and neck, exuding confidence in every gesture.

After his comeback, he focused on competing in the 100-meter dash.

He believes he now has a skill level of at least 9.80+.

Of course, according to his coach and team, he did achieve such results in training. But being able to run a good time in training and being able to run a good time in a race are two different things.

Especially for you, Ogunode.

You are the typical type of person who struggles to perform at their best in competitions.

Ramon Gitten, in lane 6, followed closely behind. Born in 1987, he is at the peak of his athletic career, and the national flag on his blue jersey was particularly eye-catching. He did not rush onto the track, but instead repeatedly jumped in place to feel the elasticity of his muscles. Then he bent over to stretch his hamstrings. Every movement was meticulous. His season-best 10.02 rating gave him the ability to challenge for a top-three finish.

Ben Youssef Met, the competitor in lane 4, and Richard Kildey, the competitor in lane 2, also made their appearances.

He was intently adjusting the laces of his running shoes, his expression serious.

Kirti waved to the audience, the GBR logo clearly visible under the lights. As a core player for the Eagles, his consistent performance has already been proven on the international stage.

When Zhang Peimeng, in lane 5, took to the field, the "Bird's Nest" erupted in deafening cheers.

This Chinese sprinter, born in 1987, wore a red tight-fitting competition suit with the word "CHINA" on his chest shining like a flame. He paired black shorts with white running shoes, creating a simple yet impactful look.

"Zhang Peimeng is here."

Yang Jian said, "The most competitive players in this group are him, Ogunode, and Keston Bradman."

"The top three in this competition should be those three."

To be honest, judging from the lineup on paper, that's indeed the case.

But the problem now is...

On paper, the lineup.

It's just the lineup on paper.

A complete fraudster has infiltrated this group.

Once on the track, the athletes quickly began their pre-race warm-up. Fermi Ognold's warm-up was highly targeted. He started with 10 high knees, raising his knees precisely to hip level, and then began arm swinging exercises, swinging his arms back and forth rapidly with a regular amplitude and a very high frequency, each swing carrying a powerful sense of strength.

He also did two 30-meter sprints, and his explosive power at the start and the rhythm of the run showed a top level. When he crossed the simulated finish line, he clenched his fist and roared, obviously to get himself into the zone.

Ramon Gitten, on the other hand, focused on refining his starting technique. He repeatedly adjusted the angle of the starting blocks, precisely controlling the distance between his front foot and the starting line within his preferred range. He then bent over the starting blocks and conducted three simulated starts.

The force with which the hands push off the ground, the angle of the legs pushing off the ground, and the extent of the body leaning forward are all meticulously calibrated. When getting up, they also communicate quietly with the coach, constantly fine-tuning the details of the movements, striving for a perfect power exertion at the moment of starting.

The one who has attracted the most attention is, of course, Zhang Peimeng.

Zhang Peimeng's warm-up routine was simple and efficient.

He first jogged half a lap around the track to warm up all his joints, and then did dynamic stretching:
When performing a lunge, straighten your back leg, lower your hips, and feel the stretch in the front of your thigh.

When performing a side lunge, keep your body upright, arms hanging naturally, and fully extend your hips. The core of the warm-up focuses on initiating acceleration exercises—bending the knees, pushing off the ground, and swinging the arms—each movement is compact and precise.

The elbow bend angle is always kept in the optimal range of force exertion, and the forward thrust of the hips is precise, as if rehearsing a duel without an opponent.

Occasionally, he would stop walking.

Feel the elasticity of the track with your hands, your fingertips gliding across the plastic surface, as if you are achieving a final fit with the track.

Before the command was given, the runners had already walked to their respective starting blocks to begin the final, precise adjustments.

Fermi Ognold knelt in lane 3, adjusting the distance between his starting blocks with both hands. His starting blocks were set relatively far forward, with his front foot about 40 centimeters from the starting line and his back foot about 30 centimeters from his front foot. This setting was more conducive to him taking advantage of his explosive power and being able to push off the ground quickly at the start.

After making the adjustments, he bent down on the starting blocks to feel the angle of his force application, then stood up and made minor adjustments, repeating this process three times before finally settling on the correct position.

Ramon Gitten's starting block setup was more conservative, with a slightly wider stance, about 35 centimeters between his front and back feet. This setup allowed him to transition more steadily into the middle of the race, matching his wide stride. When he lay on the starting blocks, his center of gravity was low, his arms were bent and close to his sides, and his fingertips lightly touched the ground, repeatedly feeling the muscle feedback when he exerted force.

Zhang Peimeng moved to lane 5. His starting block setup had been tested and refined over a long period of training. His front foot was 38 centimeters from the starting line, and his back foot was 28 centimeters from his front foot. This spacing allowed his hip, knee, and ankle joints to form the optimal angle for power generation when pushing off the ground, balancing explosive power and efficiency.

Instead of immediately lying down, he first bent over and pressed his hands against the starting block pedals to feel their elasticity. Then he adjusted his running shoes to ensure his feet were fully in contact with the pedals, preventing slippage when he exerted force. Once everything was ready, he lay prone on the starting block, shifting his weight forward until his shoulders were past the starting line. His arms were bent, his elbows close to his torso, and his fingertips lightly touched the ground without letting go of force, his muscles maintaining a taut, ready-to-pounce elasticity.

then.

Bend your arm.

A bent-arm start?

This guy.

How did this guy learn that?
Ogunode watched.

I was startled.

These days, if you're a sprinter and you don't know what a bent-arm start is, then you're not exactly a professional.

Ersha Island has made this skill known all over the world.

If you're an athlete from this era, you'll know what this is just by looking at it.

It's just that this skill is extremely difficult to master.

If you don't start in this field from a young age, it will be very painful to change it later.

For track and field athletes whose prime careers are very short.

Not worth the candle.

If you gamble wrong, your life is ruined.

Of course, before Bolt, no non-Chinese athlete could learn this technique.

So even if you want to learn, there's no one to teach you.

Even in 2025, only Bolt will do it.

Mills clearly had no intention of easily handing over this technology.

If others want to practice, they can only study the original template on their own.

The research is successful, but it will take some time to fully implement it.

A time difference is enough.

That's where our technological leadership lies.

As for Ogunode's gaze.

Zhang Pei didn't even bother to give it a second glance.

The referee's instructions were clearly transmitted throughout the field, and the eight athletes quickly stepped onto the starting blocks, leaned forward, and entered a ready-to-race posture.

Zhang Peimeng's body was extremely low, his shoulders were above the starting line, his arms were bent and close to his sides, and his elbows were locked at an optimal power range of about 90 degrees. His fingertips lightly touched the ground, and his muscles were like taut steel cables, every inch full of explosive power.

His eyes were fixed on the track ahead, his ears were like radar picking up the signal from the starting pistol, and all his senses were at their peak.

"set".

As the second command sounded, Zhang Peimeng slightly raised his hips, bent his arms, shifted his center of gravity forward, tightened his shoulder and back muscles, and quietly accumulated the power of his back leg pushing off the ground. His feet pressed tightly against the starting block pedals, as if he were about to launch into the air at any moment.

Fermi Ognold, standing beside Zhang Peimeng, was also in a state of extreme preparation, his posture comparable to Zhang's, clearly striving to gain an advantage at the start.

bang————

The sharp sound of the starting gun pierced the night sky above the "Bird's Nest," instantly igniting the passion of the competition.

Zhang Peimeng's reaction was astonishingly fast. Almost the instant the gun fired, he pushed off the starting blocks, his legs bursting with powerful force as he pushed off the ground. His hip, knee, and ankle joints worked in sync, forming a rigid transmission chain that precisely injected explosive power into the track.

With his arms bent, he swiftly pushed off the ground, his elbows moving forward rapidly, propelling his upper body forward and instantly propelling him across the starting line.

The electronic timer showed that Zhang Peimeng's starting reaction time was 0.127 seconds, ranking first in the group!

In the first 10 meters after the start, his stride frequency was astonishingly fast, his legs alternated rapidly like a small motor, and each step he took was solid and powerful, and his speed increased at a speed visible to the naked eye.

However, Fermi Ognold also had an excellent start, with a reaction time of only 0.129 seconds, closely following Zhang Peimeng, but the red figure had already taken the lead.

Ramon Gitten and Richard Kierty also got off to a quick start, temporarily taking third and fourth place, while the other runners were already pulled away from the start.

So fast? !
Ogunode had run away with Zhang Peimeng before.

His previous startups, although quick, never felt like this.

That must be...

Different.

In sprinting, the starting phase is crucial in determining the overall trajectory. The core difference between the bent-arm start and the traditional straight-arm start lies in the optimization of "force transmission efficiency" and "body balance control".

From a biomechanical perspective, the essence of initiation is to transmit the ground reaction force generated by the lower limbs pushing off the ground through the torso to the whole body, converting it into forward propulsion while minimizing energy loss.

Zhang Peimeng's bent-arm start technique is honed through countless specialized training sessions centered around this core principle.

The first step in Hukai's design is "the coordinated thrust of the articulated boom forward delivery".

Zhang Peimeng's bent arm is not simply "bending the arm", but rather a compound movement of the forearm "forward-upward" with the shoulder joint as the axis.

At the moment of initiation, the anterior deltoid muscle contracts rapidly, pulling the humerus forward. At the same time, the biceps brachii and brachioradialis muscles work together to maintain a stable elbow angle. The forearm acts like a rigid lever, converting the contractile force of the upper limb muscles into a forward thrust.

According to sports biomechanics testing data, the thrust generated by bending the arm forward can reach 12%-15% of the body weight, while the thrust generated by straight arm initiation is only 8%-10%.

This extra thrust became Zhang Peimeng's "first booster" at the moment of launch, directly propelling his upper body forward.

The second step is the "force transmission of the lower limbs pushing off the ground".

As Zhang Peimeng bent his arm forward, the muscles in his back leg, including the gluteus maximus, quadriceps femoris, gastrocnemius, and soleus, simultaneously exploded, generating a powerful ground reaction force.

Since the core muscle groups have formed a "rigid trunk" before the start, this ground reaction force is directly transmitted to the upper limbs through the lower limb bones, pelvis, and spine, forming a "resultant force in the same direction" with the thrust of the bent arm forward.

At this moment, his body leans forward at an angle of 45°, which is exactly the same as the direction of the thrusting force of the bent arm, ensuring that the transmission of force is not deviated at all, and all energy is concentrated on forward propulsion rather than being wasted laterally.

The third aspect is "precise control of the center of gravity transfer." Another major advantage of articulated boom starters lies in the optimization of the center of gravity transfer.

At the start, Zhang Peimeng's bent arm forward propels his upper body's center of gravity forward rapidly, while the reaction force generated by his lower limbs pushing off the ground propels his body forward. The combined force of the two makes the center of gravity transfer speed 0.02-0.03 seconds faster than a straight arm start.

This tiny time difference is crucial in the starting phase of a sprint—the forward shift of the center of gravity means that the body can enter the acceleration state earlier, avoiding the acceleration delay caused by the "lagging center of gravity" when starting with a straight arm.

Slow-motion replay showed that 0.05 seconds after the gun fired, Zhang Peimeng's center of gravity had already crossed the vertical plane of the starting line, while Ognod's center of gravity was still behind the starting line. This difference became a key foreshadowing of his subsequent lead.

After starting, Zhang Peimeng's bent-arm posture did not immediately switch to a regular arm swing, but went through a "bent-arm swing transition phase". This transition ensured the continuity of the force exertion rhythm and avoided energy loss caused by the switching of movements.

In the first 10 meters after the start, his elbow angle remained between 100° and 110°, and his forearm continued to swing back and forth with a small amplitude. This "small amplitude arm swing" not only continued the power generation pattern at the start, but also gradually adapted to the changes in body posture during the acceleration phase.

From a biomechanical perspective, the core value of this transition phase lies in the "coherence of muscle fiber contraction." The upper limb muscle groups activated at startup do not need to readjust their contraction patterns during the transition phase; only minor adjustments to the force intensity are required to complete the transition from "starting thrust" to "arm swing assistance," avoiding the energy waste caused by the "muscle force mode switching" during straight-arm startup. Data shows that this seamless transition allowed Zhang Peimeng to achieve a speed increase of 0.8 meters per second in the first 10 meters, while Ognod's speed increase was 0.72 meters per second, further widening the gap.

Bang bang bang bang bang.

accelerate.

The forward shift of the center of gravity brought about by the bent-arm start directly affected Zhang Peimeng's stride frequency and stride length ratio in the first 30 meters. Because the center of gravity shifted forward in advance, Zhang Peimeng did not need to deliberately adjust his stride length during the acceleration phase, and could naturally form an efficient acceleration mode of "small steps and high frequency".

This ratio ensures the effectiveness of each step and allows for rapid accumulation of speed through frequent push-offs.

From a muscle coordination perspective, the "upper limb-lower limb coordinated force exertion pattern" established during the arm-bending initiation phase was continued during the acceleration phase. Each arm-bending swing of his body formed a precise "neuro-muscle coordinated reflex" with the lower limbs pushing off the ground.

When the right arm bends and moves forward, the left leg simultaneously pushes off the ground. This coordinated movement creates a closed loop of force exerted by the upper and lower limbs, with each arm swing providing assistance for the push-off and improving efficiency.

In contrast, Ognold's straight-arm start revealed a significant weakness during the acceleration phase. Due to the lag in his center of gravity at the start, he needed to compensate for the speed difference by increasing his stride length.

Although his stride length was longer, the decrease in stride frequency resulted in a slower overall speed increase, and the increased stride length required more muscle energy consumption, which could lead to a decline in physical fitness later on. Shortly after the start of the first 30 meters, Zhang Peimeng's speed had reached 9.8 meters per second, while Ognod's speed was 9.5 meters per second, officially establishing a half-body length lead.

The energy conversion efficiency during the acceleration phase of a sprint directly determines the upper limit of speed increase.

Zhang Peimeng's bent-arm start technique fundamentally improves energy conversion efficiency—the elastic potential energy and chemical energy of muscle contraction during start-up are converted into forward kinetic energy to the maximum extent, rather than into useless energy such as heat or sound energy.

The core of this advantage lies in "reducing unnecessary movements." When starting with a bent-arm posture, the upper limbs maintain a compact position, avoiding unnecessary movements such as "shoulder shrugging" and "arm swinging" common with straight-arm starts. Biomechanical research at Hukai shows that Zhang Peimeng's previous unnecessary movements during the sprint start phase led to 5%-10% energy loss, while using a bent-arm posture can control this loss to within 3%.

For example, he kept his elbows close to his torso, avoiding increased wind resistance caused by lateral arm swings.

Shoulder girdle muscle stability.

There was no up-and-down movement.

This ensures that the direction of force transmission is always forward.

and many more.

At the same time, the body balance advantage brought about by bending the arms also reduces energy consumption.

During the acceleration phase, Zhang Peimeng's torso maintained a stable forward tilt angle without any side-to-side swaying or up-and-down bouncing. This balanced state ensured that the ground reaction force when his lower limbs pushed off the ground was always transmitted along the midline of his body, avoiding force line deviation caused by loss of balance.

In contrast, some of the other competitors had unstable postures at the start and needed to use extra muscle strength to maintain balance during the acceleration phase.

This undoubtedly diverts the energy used for acceleration.

This further widened the gap between them and Zhang Peimeng.

"Zhang Peimeng got off to a good start and quickly took the lead."

"The combined speed was very smooth, and he quickly overwhelmed Qatar's Ogunode!"

"Take a look at the train running along the way."

The middle section is the core phase of sprinting.

At this point, athletes typically reach their peak speed and maintain it. The focus of competition at this stage is on "technical stability" and "energy maintenance efficiency".

The key to Zhang Peimeng's ability to continuously extend his lead during the middle stage lies in the fact that the bent-arm start laid the foundation for his perfect technical rhythm and body posture.

Bang bang bang bang bang.

As the race progressed, Zhang Peimeng switched to a more conventional arm swing with an elbow angle of 110°-120°. However, his upper body posture still retained the streamlined characteristics of his bent-arm start. His shoulder blades were retracted and lowered, his chest remained moderately expanded, his head was upright, and his gaze was fixed on the marker 10 meters ahead. His entire upper body formed a smooth "aerodynamic profile," minimizing wind resistance.

Yes.

this is.

We've gotten a glimpse of the edge of scientific wind-control technology.

It's a pity there wasn't enough time; otherwise, he would have had a chance to take control this year.

Fortunately, there's the Olympics next year.

No delay.

This posture is inseparable from the core control during the bent-arm start. During the start phase, Zhang Peimeng's core muscles have already formed a "rigid contraction" pattern, which continues throughout the middle of the race, ensuring that the torso does not sway as speed increases. From an aerodynamic perspective, the streamlined posture can reduce wind resistance by more than 30%, and wind resistance is one of the main sources of resistance during the middle stage of sprinting.

Zhang Peimeng is certainly far from perfect, but everything is difficult at the beginning, and doing things step by step is the normal course of most things.

Extremely rapid burst.

At 60 meters, Zhang Peimeng's lead had widened significantly, and the core of this was the triple boost in overall speed, inertia, and rotational inertia brought about by the curved arm start technology, which ultimately translated into a crushing advantage in vertical push-off force.

The key value of the bent-arm start lies in reducing rotational inertia through the "compacted bent-arm posture" of the upper limbs—when starting, the arms are bent close to the sides of the body, which reduces the upper limb rotation radius by more than 40% compared to Ogunode's straight-arm posture.

According to the formula for moment of inertia (J=mr), the closer the mass distribution is to the axis of rotation (torso), the smaller the moment of inertia and the greater the angular acceleration at startup.

This advantage translates directly into an explosive increase in overall speed.

More importantly, the cumulative effect of inertia from the boom lift continues to amplify after 50 meters. Due to the small moment of inertia and high acceleration efficiency during the start-up phase, Zhang Peimeng's body gains stronger forward inertia. This inertia is not simply a "speed continuation," but rather transforms into a mechanical advantage of "maintaining high speed without additional effort."

After a burst of speed, he doesn't need to deliberately increase the intensity of muscle contraction. He can maintain an efficient ratio of stride frequency simply by relying on inertia. Every step forward is like "going downstream," with smooth and relaxed movements, without any tension.

In contrast, Ogunode had to forcefully increase the amplitude of his muscle exertion in order to catch up with the gap, which caused his stride frequency to drop from 4.5 steps/second to 4.3 steps. However, the lack of inertia meant that he had to "fight against the deceleration trend" with each push-off, and muscle fatigue accumulated rapidly, with obvious signs of strain appearing on his face.

70 m.

Of course, the most crucial transformation is the closed-loop effect of reduced rotational inertia → increased overall speed → amplified vertical ground-pushing force.

The propulsive force in sprinting comes from the vertical ground reaction force generated by the lower limbs pushing off the ground, and the high-speed inertia brought about by the bent arm start gives Zhang Peimeng's push-off action an "inertial boost".

At this moment, his body center of gravity remains high and stable due to inertia. When pushing off the ground, the angles of force exerted by the hip, knee and ankle joints are more optimal. When the calf muscles contract, they can use inertia to complete the efficient conversion of "elastic potential energy to kinetic energy". The vertical pushing force reaches 2.8 times the body weight, far exceeding Ogunode's 2.5 times.

This increase in vertical force makes Zhang Peimeng's every step more solid and less strenuous, and also improves the energy feedback efficiency during landing by 15%, forming a virtuous cycle of "stepping on the ground - propulsion - inertia accumulation". On the other hand, Ogunode, due to insufficient vertical force, faces the dilemma of "excessive force but insufficient propulsion" when stepping on the ground, and his foot cushioning is too abrupt when landing, resulting in a significant increase in energy loss.

80 m.

At 60 meters, this mechanical advantage had translated into a visible crushing force. Zhang Peimeng's red figure moved forward like flowing water, his head upright, his gaze steady, his chest expanding evenly, without the slightest sign of panting.

The efficient biomechanical circulation brought about by the flexion-arm start resulted in his blood lactate concentration being only 7.8 mmol/L, far lower than Ogunode's 9.2 mmol/L, indicating that his physical reserves remained abundant.

Although his swing arm has been switched to a conventional curved swing arm, it still maintains the "compact trajectory" of the start-up, with the elbow close to the torso, further consolidating the advantage of rotational inertia and keeping the drag coefficient at the lowest level.

Ogunode's speed has begun to decline.

In detail, his knee lift height was significantly reduced, his ankle plantar flexion was no longer sufficient when pushing off the ground, and his vertical push-off force continued to decline.

The gap between him and Zhang Peimeng widened from one body length to another.

85 m.

At 70 meters, Zhang Peimeng's relaxed demeanor became increasingly apparent. He didn't even need to keep his eyes fixed on what was ahead; he would occasionally glance at Ogunode behind him out of the corner of his eye, then calmly turn back, his face still serene.

This composure stems from the "absolute control" brought about by the bent-arm start. At this moment, his vertical push-off force remains high, and the dynamic balance between stride frequency and stride length is not disrupted at all. Every step is on the precise rhythm point, and the inertia allows him to maintain high speed without additional effort, as if the track is "pushing him forward".

Ogunode was completely on the defensive. His face was contorted from excessive exertion, the veins in his neck were bulging, his arms were swaying laterally, his rotational inertia was increasing further, his vertical push-off force dropped to 2.3 times his body weight, and his speed dropped further. The gap between him and Zhang Peimeng had widened to more than two body lengths, and there was no hope of overtaking him.

In the final 10-meter sprint, Zhang Peimeng's mechanical advantage reached its peak. By slightly increasing the forward thrust of his hips, he was able to further enhance his propulsion using inertia, and his vertical push-off force briefly rose to 2.9 times his body weight, while his body posture remained stable, his core muscles did not relax at all, and his rotational inertia remained at a low level.

His movements were completely fluid and precise, with the coordination between his thigh swing and arm swing remaining perfect. Every step was effortless and powerful, showcasing his overwhelming style of "using technique to drive speed."

Ogunode was no longer able to catch up, and his pushing-off motion became mechanical. Insufficient vertical pushing force caused his stride length to gradually shorten.

Of course, this doesn't mean he ran badly; in fact, he ran quite well.

Or perhaps this was the best run he'd ever made in the grand competition of his life.

It's just a pity.

Even if they produce this level of performance.

Facing Zhang Peimeng, who has evolved once again since Moscow.

It would be like throwing good money after bad.

He could only watch as Zhang Peimeng easily pinned him behind him.

No matter how much effort I put in.

They couldn't get even a fraction closer.

"Although Ogunode wanted to get close, Zhang Peimeng..."

"Don't give him any chance at all!"

"Powerful suppression!"

"Finally, let the water flow and rush across the finish line!"

"9.97!"

"First in the group, beating Ogunode by 9.99 seconds!"

"Zhang Peimeng advances as the top seed in his group!"

At the moment of crossing the finish line, the electronic timer stopped at 9.97 seconds! Zhang Peimeng's chest was the first to cross the finish line. After crossing the finish line, he was not overly excited. He just slowly stopped, adjusted his breathing, and showed a calm smile on his face.

Throughout the match, Zhang Peimeng fundamentally reshaped his mechanical advantage through the flexed arm start technique.

This reduces his rotational inertia, resulting in a surge in starting acceleration efficiency.

The overall speed increase accumulates into a powerful forward inertia.

Ultimately, this translates into a crushing advantage through vertical push-off force.

This allowed him to easily control the pace from the 60-meter mark onwards, defeating Ogunode in an undisputed manner and advancing smoothly to the semifinals.

Even if Ogunot ran 9.99 seconds, it was of no use, because if Zhang Peimeng hadn't slowed down at the end.

The difference is more than 0.02.

……

"Both are Asian athletes? How did Ogunode perform?"

Zhang Peimeng was taken aback upon hearing this.

Because he spoke so earnestly, you couldn't immediately tell whether he was telling the truth or lying.

"I thought he was in the group behind."

Is he in this group?

This infuriated Ogunode.

However, given his current physique, he is no match for the increasingly stronger Zhang Peimeng.

just forget it.

Zhang Peimeng is more than 10 centimeters taller than him.

In addition, there are stronger muscle lines.

He could only be—

In anger.

Angry for a moment.

As for Bradman, who should have gotten third place.

But unexpectedly, he ran a time of 10.75 seconds.

They finished at the bottom of the group.

As someone whose career best time is 9.86 seconds.

This result is absolutely terrible.

That's right, you should know that he also ran a career-best time of 9.86 seconds this year.

Moreover, they emerged from the national selection trials in Trinidad and Tobago.

This shows that he was in pretty good form during the selection competition.

And then we arrived here.

His condition is the same as before.

They always collapse during major competitions.

Normal grades are only worth a glance.

Take a look.

It has no reference value.

He may even be the person whose personal best in sprinting history is the least meaningful.

Including the best result of the season.

This is all the case.

This infuriated their coaching staff and track and field fans in their country.

In the internet age, Bradman's home address was immediately exposed.

I'm going to send him razor blades.

It's utterly a manipulation of the feelings of the vast majority of Trinidad and Tobago.

You are a 9.80+ club player who achieved a career-best time in a single season.

I won't even mention your medal aspirations in the competition.

At the very least, we should try to reach the finals stage in this era.

That's not an exaggeration at all.

but.

Bradman, who ran under 9.90 seconds in 2012.

I simply don't have that ability.

Anyway, this wasn't the first time he'd underperformed in a major competition.

If there's one, there's two; if there's two, there's three; if there's three, there's four.

Anyway, as long as I'm bad enough every time.

Then no one can have any expectations of themselves.

Once everyone gets used to it.

Naturally, no one will criticize you anymore.

Good heavens, if Su Shen and the others heard this, they'd definitely say something—

You're a fucking genius.

Can you really play yourself like this?
I truly admire him.

Since Bradman...

Yes, they've fallen out of the top 3.

The group is at the bottom.

So the original person had a chance, and Ramon Gitten became the third, and he performed very well in this event with a time of 10.02 seconds.

Despite facing some headwinds, their performance was still very strong.

Fourth is Ben Youssef Met.

His time was 6.52 seconds.

Richard Kildee, one of the current top players in the Little Eagles.

But in reality, he only ran a time of 10.12 seconds.

Then there's no need to look at the rest.

Zhang Peimeng won first place in the group.

Both of them advanced.

Then.

That's all.

Su Shen and Zhao Haohuan.

Seeing these two about to take the field, countless track and field fans couldn't help but lick their dry lips.

Just like diners waiting for a grand meal to be served.

I'm already getting impatient.