The Su God of the Reopening of the Sports Arena

Chapter 2444, page 964! A powerful upgrade! Technique modification successful!

Chapter 2444, page 9.64! A powerful upgrade! Technique modification successful!
Extremely rapid burst!
The third stage of the six-second burst!

Zhao Haohuan... actually took the initiative to erupt?

If this is the case……

I spent that time practicing arduous self-cultivation.

That's totally worth it!
Because in the entire history of human sprinting, only Bolt and Suarez have achieved this speed.

Only a prime Guy could do that.

Gay's peak period was hampered by injuries, so his peak performance wasn't particularly long. At this point in time, he was one of the few athletes, besides Suarez and Bolt, with a higher probability of reaching the third stage of the six-second burst during his peak.

Although it's different from players like Su Shen and Potter who can 100% actively turn on the switch during their peak.

At least he has a probability.

It can be increased to 50%.

That's already pretty good.

The chances of anyone else, whether it's Powell or Blake Gatling, unleashing a third phase within six seconds are probably less than 20%.

That's already a huge help.

Randy had even told Zhao Haohuan about it during their training...

If all goes well, following the key points pointed out by Su Shen, the success rate might even exceed that of Guy.

Reaching 60% or even 70% is not impossible.

if it is like this.

That's totally worth it.

Zhao Haohuan's arduous training over the past few years has mainly revolved around this aspect.

They didn't say how much they wanted to improve their future prospects.

Instead, they focused their efforts on improving their top speed and finishing speed.

He had never considered that he could break through his own strengths and become even stronger, but now that he looks at it...

If it succeeds, my ability to maintain my peak performance will be stronger and last longer.

After all, among athletes taller than that, besides Usain Bolt, there is no one else who can have a promising future.

Therefore, Bolt is the sacred body of track and field created by God.

Other people do not have this physiological condition.

Zhao Haohuan didn't waste much effort here and simply made up his mind to choose the approach Randy suggested.

Directly break through the strengths.

Turn your strengths into even stronger ones.

And that's how we ended up seeing this scene.

Bang bang bang bang bang.

50 meters is the starting point for the "explosive speed" in sprinting.

During this stage, the body completely breaks free from the posture constraints of the acceleration phase and enters the peak state of "maximum power release".

Zhao Haohuan's core technology is to transform the energy stored during the 40-50 meter power-building period into a continuous high-speed propulsion force through the "explosive conversion" of hip delivery technology, while also relying on the precise control of hip delivery.

To achieve a balance between "high-speed output" and "stable movement", and to avoid power loss caused by excessive force during this stage, as was the case before.

50-55 meters.

The "explosive push" of hip delivery and the breakthrough of speed threshold.

At 50 meters, Zhao Haohuan's hip thrust technique instantly switched from "accumulating hip swing" to "explosive push". The core is to release the stored elastic potential energy and muscle power in one go through the active forward thrust and rapid external rotation of the hip joint, breaking through the personal speed threshold.

Previously, he often experienced a "disconnection in exertion" during this stage.

Either insufficient energy buildup leads to a weak burst of power.

Either you exert too much force, causing your movements to become distorted.

Now, Zhao Haohuan has laid the groundwork for 40-50 meters.

It achieved a "high-speed connection" for the outbreak.

Just as his feet touched the ground...

The gluteus maximus and hamstrings enter a "peak contraction" state simultaneously.

With the rigid support of the hip joint, the force is transmitted through the thigh to the hip joint, and then the hip joint thrusts forward at a speed "0.002 seconds faster than the acceleration period".

This "explosive push" is not simply "lifting the thigh", but a "spiral push" of the hip joint around the body's longitudinal axis.

While exerting force forward, it is accompanied by a 1.5° external rotation. This rotation not only increases the effective propulsion distance of the stride, but also counteracts the centrifugal force interference during high-speed operation through the slight rotation of the lower limbs.

The hip extension range increased from 28° during the power-building phase to 31°.

His thighs swung forward almost parallel to the ground, but through powerful contraction of his core muscles, he stabilized the forward lean angle of his upper body at 5°, avoiding backward leaning of the upper body due to excessive hip thrust. This "hip thrust without body thrust" control ensures that the force line during explosive movements is always transmitted along the longitudinal axis of the body, ensuring that every bit of power is converted into forward momentum.

55 meters.

His speed continued to break records, officially entering his personal top speed range, and the core driving force behind this breakthrough was the explosive push of the hip.

55-60 meters.

Zhao Haohuan's hip thrusts achieve "dynamic stability" and continuous power output.

Once you enter the maximum speed range, maintaining that speed is far more difficult than increasing it.

At high speeds, even the slightest deviation in movement will be amplified, leading to power loss.

During this phase, Zhao Haohuan achieved continuous output at high speed by using the "dynamic stabilization" technique of hip delivery, avoiding the "burst followed by decay" dilemma that occurred in Moscow.

The core of "dynamic stability" is the "micro-adjustment mechanism" of the hip joint.

Therefore, when Zhao Haohuan's foot touches the ground, his hip joint will make a slight adjustment of the angle within 0.5° within 0.001 seconds based on the feedback of the ground reaction force.

If the ground reaction force is too large, the hip joint will slightly retract to cushion the impact and avoid movement deformation caused by the force.

If the reaction force is too small, the hip joint will increase the forward thrust to compensate for the lack of power.

This adjustment relies entirely on the body's proprioception and is a "muscle instinct" developed through long-term training.

Then his hip thrust and arm swing created a "rigid synergy".

This refers to the forward thrust of the hip joint.

The arm on the same side swings forward at the same speed and amplitude.

Using the momentum of the arm swing, the shoulder and torso move slightly forward, further enhancing the propulsive effect of hip thrust.

When the hip joint extends backward and pushes off the ground, the arms swing back quickly, and the contraction of the shoulder muscles helps stabilize the pelvis.

This synergy transforms the upper limbs from a mere "balancing tool" into an "auxiliary amplifier" that powers the hips, increasing overall propulsion by 8%.

At 60 meters, his speed had already continued!
There was absolutely no degradation!

This stable output is the result of dynamic hip control.

After 60 meters, lactic acid begins to accumulate in the muscles. If the force exertion pattern is not adjusted in time, a decrease in speed will be inevitable.

Zhao Haohuan's hip extension technique activates an "energy reuse" mechanism at this stage. By optimizing the timing of the hip extension movement, it reintegrates energy that might otherwise be wasted into the kinetic chain, thus delaying the effects of fatigue.

In previous years, when I was hip thrusting, the interval between my muscle contraction and relaxation was too long, causing some energy to be lost during the "contraction-relaxation" interval.

Zhao Haohuan has now shortened this interval by "compacting the hip thrust movement"—

When the thigh swings forward to its highest position, the relaxation of the hamstrings and the contraction of the gluteus maximus are completed almost simultaneously, seamlessly connecting like gears meshing, thus avoiding energy waste.

Then, by utilizing the elasticity of his hip joint, he completed a "secondary power build-up" during the hip extension and swing.

When the thigh swings back, the hip joint extends slightly, allowing the gluteus maximus to be in a slightly stretched state again.

To reserve a small amount of elastic potential energy for the next hip delivery.

While this "energy reuse" cannot completely prevent lactic acid buildup, it can effectively reduce the rate of energy consumption.

At 65 meters, his hip extension remained at 30°, and his stride length was stable.

The speed is still increasing!

For him, hip extension at this point is not just a "power-generating movement," but also an "energy management tool."

By precisely utilizing every bit of energy, we can create space for maintaining maximum speed for the subsequent 65-70 meters.

"Posture locking" of the hip and the connection in the later stages!
His hip thrust motion enters a "standardized mode" at this stage.

The hip extension amplitude is fixed at 30°, the hip joint rotation angle is controlled within 1°, and the coordination rhythm of the arm swing and hip extension is kept completely consistent. This "posture lock" is not a mechanical repetition, but rather a fixation of the relative positions of the pelvis, hip joint, and torso in the "optimal force exertion posture" through isometric contraction of the core muscle groups, ensuring that each subsequent hip extension can output with the highest efficiency.

At the same time, he quietly reduced the proportion of force exerted by his quadriceps, shifting more of the load to his gluteus maximus, which has a stronger resistance to fatigue, in order to conserve the strength of his quadriceps for the upcoming final sprint.

As I just mentioned, 65-70 meters is the key point for the transition from the high-speed zone to the sprint stage.

Because the muscle soreness caused by lactic acid buildup has gradually become apparent at this point, improper handling can lead to problems such as reduced hip extension range and power output interruption.

Zhao Haohuan, relying on the "Super Hip Delivery System" that Randy has honed over three years, integrates and outputs the early power accumulation, explosiveness, and stability techniques.

It maintained its high-speed state.

It also established a seamless technical platform for the final sprint.

This demonstrates the system's core advantages of "resistance to attenuation and strong connectivity".

Bang bang bang bang bang.

Super hip delivery with deep synergy of "three muscle linkages"!
It's okay to be tired.

Who ran here?

Everyone gets tired.

The problem is how to control the extreme speed of maintaining a state under fatigue.

Randy's solution is this Super Hip Delivery System.

The three muscles work together.

The core support of the Super Hip Delivery System is the three-muscle linkage mechanism of "gluteus maximus-hamstring-quadriceps". Randy wants Zhao Haohuan to maximize the value of this mechanism in the 65-70 meter range.

At this point, Zhao Haohuan's quadriceps muscles were slightly fatigued due to continuous high-intensity exertion. If he continued to use the previous "quadriceps-dominant" hip thrust pattern, the range of motion would inevitably be reduced.

However, it benefits from the muscle synergy design of the Super Hip Delivery System.

He actively shifted the control of the exertion to his gluteus maximus.

Its share has increased to 45%.

With the hamstrings.

The proportion of transfers has increased to 30%.

The proportion of quadriceps muscle activation decreased to 25%.

This creates a pattern where "anti-fatigue muscle groups take the lead" in exerting force.

In the specific movement, when the hip joint pushes forward, the gluteus maximus first completes an "explosive extension", using the contraction force of the deep fibers to push the pelvis forward.

The hamstrings simultaneously complete the "rapid stretch-contraction" cycle, acting like a spring to assist the thigh in swinging forward, while precisely controlling the swing amplitude to avoid movement distortion caused by imbalance of force.

The quadriceps primarily function as an "auxiliary stabilizer," providing support only at the moment the foot touches the ground, significantly reducing its load.

This synergy is not a simple "addition of strength," but rather a "millisecond-level coordination between muscle groups" formed through long-term training of the super hip delivery system.

The peak force of the gluteus maximus and the contraction origin of the hamstrings differ by only 0.001 seconds, ensuring seamless power output and maintaining a stable hip extension of 30°.

The step length has not decreased in the slightest.

70 m.

Although this is technically still part of maintaining high speed, it's already approaching the final sprint transition.

Zhao Haohuan has always excelled in this area.

And that's what Randy wants him to do now.

Stronger and stronger.

Use the "core-hip rigid chain" of the super hip delivery system to significantly resist attenuation!
The so-called super hip delivery system is the "core-hip rigid transmission chain".

During high-speed operation, even slight body swaying amplifies energy loss, but the presence of a rigid chain allows Zhao Haohuan's torso and hip joints to form an "integrated rigid structure".

It completely eliminates hip displacement caused by core weakness.

At this moment, his rectus abdominis and erector spinae muscles maintained an "isotropic contraction" state, firmly locking his torso and pelvis, with the relative displacement between the two controlled within 0.2°.

This precision is far higher than the 1° of traditional athletes. When the hip joint performs the hip thrust, the rigid chain supports the body like a "steel skeleton," ensuring that the force line is transmitted directly from the hip joint to the torso, and then the propulsion effect is enhanced by the gravity assist of the torso leaning forward.

Compared to the initial training phase where a rigid chain was not formed, the force transmission loss rate dropped from 12% to 4%, and the effective propulsion force for each step decreased by only 3% compared to the peak speed.

In contrast, the decline in Moscow during the same period was generally over 8%.

This resistance to speed decay allows him to maintain a high speed even at 70 meters.

There wasn't even a decline.

It's still progressing steadily!
Next comes the transition between the high-speed maintenance zone and the sprint zone.

Randy's Super Hip Delivery System is not a rigid technical template, but a flexible system with "dynamic adaptation" capabilities. The hip delivery movement in the front area has already begun to actively adapt to the technical requirements of the later sprint, achieving a seamless connection between the "high-speed zone and the sprint stage".

The final sprint requires a faster stride frequency and a more compact hip drive rhythm. If the pattern of the high-speed zone is still used in this stage, it will inevitably lead to a break in the transition.

He instructed Zhao Haohuan to rely on the "rhythm prediction" function of the Super Hip Delivery System to subtly adjust the hip delivery strategy after 70 meters.

While maintaining a stable amplitude, the hip extension frequency can be reduced by 0.1 meters per second by shortening the "pause interval" after the hip joint's forward thrust.

This adjustment is not a deliberate acceleration, but rather an adaptation to the rhythm requirements of the sprint phase in advance through the "muscle memory" trained by the super hip delivery system.

At the same time, his hip thrust motion began to shift towards a more "compact" approach, with the highest point of the thigh swing slightly lowered by 1° and the arm swing amplitude also decreasing accordingly, laying the groundwork for the "high-frequency arm swing-hip thrust" pattern in the later sprint.

This "adaptation in advance" allowed his body to naturally switch to "sprint preparation state" when he crossed the 70-meter mark.

That is to say...

Zhao Haohuan.

No need to spend more time adjusting the technique.

It allows for a smoother entry into the sprint zone.

This saved valuable reaction time for the final sprint after 80 meters.

After 70 meters.

The 100-meter sprint has entered a stage of "a dual struggle between physiological limits and technical will".

As a human being, the concentration of lactic acid in the muscles is already close to the threshold, and the soreness in the lower limb muscles has upgraded from "slight perception" to "significant interference".

Traditional athletes often fall into a vicious cycle of "weak hip extension - sudden drop in speed" at this point.

Zhao Haohuan previously relied on his natural physiological structure and different running style to reduce the degree of decline here.

But now, as his level rises, his requirements will change. If he wants to take it a step further...

Relying solely on those original talents to make a living is no longer enough.

and so.

Zhao Haohuan relies on the "anti-attenuation design" of the Super Hip Delivery System to smoothly transition to sprint mode at 70-80 meters.

This becomes a key point.

The taller a person is, the less likely they are to make these changes without leaving any trace.

Stop talking about Bolt. He's an exception. Otherwise, find another tall athlete over 1.9 meters who can do these things well, besides Bolt.

Sorry, not a single one.

Therefore, Zhao Haohuan, who doesn't have the buff of the Track and Field Divine Body in this aspect, is about the same; all he can do is make changes in other areas.

First, there is the "compact transformation" of hip delivery.

Entering the 70-meter mark, Zhao Haohuan clearly felt the soreness in the muscles on the front of his thighs increasing. If he continued to maintain a hip extension of 30° in the high-speed zone, it would inevitably lead to overload of the quadriceps muscles.

Relying on the "dynamic amplitude control module" of the super hip delivery system, he proactively fine-tuned the hip delivery amplitude to 28°.

This adjustment is not a "passive reduction," but rather based on the "fatigue adaptation instinct" formed through systematic training.

Specifically, the hip thrusting motion changes from a "wide and sweeping forward thrust" to a "compact and efficient translation": the distance of the hip joint's forward thrust is shortened, but the forward thrusting speed is increased by 0.01 seconds. By "shortening the stroke and improving efficiency", the effective propulsive force of each hip thrust is ensured not to decrease.

Bang bang bang bang bang.

The knee flexion angle during the forward swing of the thigh increases from 10° to 15°, reducing the contact area between the thigh and the airflow, which reduces wind resistance and alleviates the stretching load on the hamstring muscles.

The key to this "compact transformation" is the "precise control of the force point" technology in the super hip delivery system.

Because no matter how the amplitude is adjusted.

The point of force exertion of the hip joint is always locked in the "anterior pelvic force exertion zone".

This is to ensure that the line of force does not deviate.

Randy's design here is excellent.

Zhao Haohuan did a good job too.

The final result...

It looks alright.

At the beginning of the season, it was alright, since there were still many things we weren't familiar with, and we needed to experience and refine our technical system in actual games.

So it's understandable and forgivable that I didn't perform particularly well at that time and had all sorts of problems.

But now.

Zhao Haohuan has already played quite a few games this season, and he is gradually becoming more familiar with this system.

So when he arrived here, he immediately made technological changes.

The first step is “adaptive reinforcement” of the core-hip rigid chain.

After sprinting 80 meters, the most direct effect of muscle fatigue is a decrease in core control. If the core cannot provide stable support, the hip thrust will inevitably wobble.

The "core-hip rigid chain" of the super hip delivery system activates an "adaptive reinforcement" mechanism at this stage.

This means that the contraction strength of the rectus abdominis and erector spinae muscles increases from 220μV to 240μV, like two thickened steel cables, further reducing the relative displacement between the thoracic cavity and pelvis to 0.1°.

Simultaneous contraction of the external oblique muscles provides real-time micro-adjustment to address slight pelvic tilt caused by lactic acid buildup.

When the left side of the pelvis tends to sink, the left external oblique muscle contracts instantly, pulling it back to a horizontal position.

This ensures that the hip thrust movement is always performed along a stable force line.

This "adaptive reinforcement" is not achieved through deliberate effort, but rather is the result of long-term training with the Super Hip Delivery System.

In his daily training, Randy has him perform "core-hip synergy training" under simulated fatigue conditions.

Simply put, by running to exhaustion with weights and then immediately performing hip extension exercises, you force your core muscles to maintain control of your hips even when fatigued, gradually forming a "fatigue-reinforcement" conditioned reflex.

75 meters.

While the adjacent athlete swayed from side to side due to a lack of core strength, Zhao Haohuan's hip thrust remained as stable as if it were controlled by a precise track, with the force transmission loss rate maintained at a low level of 4%, and the speed only 0.05m/s slower than the peak speed.

It is far superior to the decline level of other athletes during the same period.

After 80 meters.

The body has entered a state of "maximum output", and the muscles' ability to actively exert force begins to decline. At this time, maintaining speed and breaking through the finish line rely more on the "inertia drive" formed by technical movements.

The core advantage of the Super Hip Delivery System becomes apparent at this stage—through the accumulation of previous techniques, a stable hip delivery inertia is formed, allowing the body to still achieve efficient propulsion by relying on the inertia of movement even when "active force is reduced".

At the same time, relying on the "integrated finishing technology" within the system, the advantage of finishing can be locked in with extreme precision.

Bang bang bang bang bang.

Zhao Haohuan then began to "continuously release" the momentum of his hip thrusts.

Long-term training with the Super Hip Thrust System has given Zhao Haohuan a strong "muscle memory inertia" in his hip thrust movements.

Even if the intensity of active force decreases, the hip joint can still complete the hip thrusting action according to the predetermined trajectory, maintaining propulsion by relying on the inertia of the action.

85 m.

His active force intensity decreased by 10% compared to the maximum speed zone, but his hip extension amplitude was still maintained at 27°.

The step size remains stable.

This is precisely the effect of inertia-driven propulsion.

When Zhao Haohuan's feet touch the ground, his hip joint no longer relies on the explosive contraction of the muscles, but instead uses the inertia of the previous hip thrust to naturally complete the forward thrusting motion.

The hamstrings and gluteus maximus primarily engage in "maintaining contraction" to ensure that the momentum does not deviate from its intended path. At the same time, they utilize the elasticity of the muscles to convert the ground reaction force upon contact with the ground into auxiliary propulsion force.

This "inertia-driven" approach is not "passive gliding," but rather the result of the "force-inertia-re-force" cyclical design of the super hip delivery system.

This means that every time you actively exert force, you accumulate energy for the next inertial movement.

Each inertial movement reduces the load on the active force exerted.

Ultimately, a propulsion model of "low consumption and long range" was formed.

This allowed him to maintain a good speed at 85 meters.

The attenuation rate is only 1.0%.

90 m.

The "anti-roll control module" of the Super Hip Delivery System plays a key role at this stage, resisting external interference and internal vibrations through the coordinated adjustment of the muscles around the hip.

Muscle fatigue is most likely to cause a decline in core control, and the core is the "stabilizing anchor point" for hip thrust. Once the core is unstable, problems such as wobbling and reduced range of motion will inevitably occur during hip thrust.

In the Super Hip Delivery System, the "core-hip rigid linkage" technology plays a decisive role at this stage, providing stable support for the hip delivery movement through "isotropic contraction reinforcement" of the core muscle group.

At this moment, Zhao Haohuan's rectus abdominis and erector spinae muscles maintained a high-intensity isometric contraction, like two rigid splints firmly locking the thoracic cavity and pelvis, controlling their relative displacement to within 0.1°.

This level of accuracy is more than five times that of the average athlete.

When the hip joint performs a hip thrust, the core muscles can counteract the force line shift caused by muscle tremors in real time.

If the left thigh exerts less force, the left external oblique muscle immediately contracts slightly to adjust the position of the pelvis.

If the force of the hip thrust decreases, the erector spinae muscles simultaneously strengthen their contraction to maintain a stable forward tilt angle of the trunk. This control ability stems from the "core stability specific exercises for fatigue state" in the systematic training.

This means that after running to exhaustion with weights, immediately perform single-leg hip support training to force the core muscles to maintain precise control of the hip even when fatigued, gradually forming a "fatigue-reinforcement" neural reflex.

At 90 meters, even with slight tremors in his thigh muscles, his hip thrust remained perfectly precise, as if guided by a finely tuned track, with a force transmission loss rate of only 3.5%.

Ensure that every bit of remaining physical strength can be converted into effective propulsion.

Finally, there's the efficiency improvement of focusing the hip's "force generation point".

When fatigued, muscle exertion tends to become "dispersed"—the force that was originally concentrated in the hip joint can spread to the calf, ankle, or even upper limb due to local muscle weakness, resulting in wasted energy.

The Super Hip Delivery System's "force point focusing" technology allows Zhao Haohuan to always lock the core of his force on the "high-efficiency force zone" around the hip joint, avoiding energy dispersion.

95 m.

He deliberately reduced the proportion of force generated by his calves and ankles, concentrating his remaining energy on the coordinated work of his gluteus maximus and hamstrings.

These two muscles have better resistance to fatigue than the quadriceps and are the core power source for hip thrust.

At this point, when the hip joint pushes forward, the gluteus maximus replaces "wide-range force exertion" with "precise point contraction," activating only the deep fibers directly related to hip extension and reducing unnecessary energy consumption.

The hamstrings focus on controlling the rhythm of thigh swing, avoiding movement distortion caused by excessive force.

This "focused power" allows limited physical strength to be used to its maximum value, enabling him to maintain 90% of his hip thrust in the top speed zone.

Even higher.

Traditional athletes' momentum has generally dropped to below 70%.

Even if I wanted to maintain more than 80% before, it would have been difficult.

just now……

Refreshed.

The finish line is now in sight.

He didn't care how fast Su Shen ran; he was only concerned about how far he would run after that shot.

Because it's the end.

He still has technical moves to perform.

such as.

The "technical integration" of hip delivery and finishing.

One of the major advantages of the Super Hip Delivery System is that it deeply integrates the hip delivery action with the finishing technique, avoiding the technical gap in traditional finishing where "the hip delivery is interrupted by leaning forward".

Zhao Haohuan's crossing of the finish line was not a deliberate "forward lean of the torso," but rather a natural extension of the hip thrust.

This is a direct result of the "hip delivery-finish line coordination training" within the system.

96 m.

97 m.

98 m.

When you are 1 meter away from the finish line.

He completed the final hip thrust.

The hip joint thrusts forward due to inertia, while the core muscles, using the kinetic energy of the hip thrust, cause the torso to naturally lean forward, and the chest cavity moves forward accordingly.

This forms a continuous posture of "sending the hip and probing the body".

Throughout the entire process, the hip thrust was uninterrupted, and the forward momentum provided natural power for the torso to lean forward, ensuring both the efficiency of crossing the finish line and avoiding a sudden drop in speed caused by deliberate forward leaning.

Including his arms during the final hip thrust.

Both use a "short, synchronized" forward swing motion to assist in trunk posture.

Make sure that the end point of your arm swing coincides perfectly with the peak of your hip thrust.

This ensures that the projection of the body's center of gravity crosses the finish line in advance at the moment of crossing.

The technological advantages of this integrated connection were fully demonstrated at the moment of crossing the finish line.

The final step was completed almost at "high speed".

When the chest cavity brushes past the white finish line.

His hip joint remained in a forward-leaning, inertial posture.

There was no technical distortion due to the finishing action.

This is a perfect demonstration of the "technical closed loop" of the Super Hip Delivery System, where every movement from start to finish serves the core goal of "efficient propulsion".

There are no unnecessary steps.

This also shows that his physical training during this period has all revolved around this aspect.

Although everyone's attention was definitely focused on Su Shen.

The final result of Su Shen's run.

It's also quite frightening.

Even he was slightly stunned when he saw it.

However, when the second-place score appeared on the electronic screen...

Zhao Haohuan.

Still.

It gave me a jolt.

9.6……4.

PB.