Whoosh!!
At the mont Wang Ye jumped off the mountain cliff, a fierce and extre gale seed to predictably sweep in from the northwest, directly in front of him.
It happened to lift him up.
Wang Ye straightened his body, spread his arms wide, and tried to expand the inflated bladders of his wingsuit. He constantly adjusted his posture in the air, operated the Light Body Technique, controlling the Innate Qi to move upward, gradually stabilizing his form, soaring against the wind, resembling a warrior surfing on a turbulent sea.
Wang Ye's brows furrowed tightly, nearly operating the Light Body Technique to its utmost.
The traits of the Light Body Technique allowed him to gain a slight all-attribute bonus in the air. In other words, during his ti in the air, his control ability, endurance, speed, and even Telekinesis would be enhanced.
His flying angle gradually stabilized from a downward 70 degrees to a downward 30 degrees.
But simultaneously, Wang Ye's altitude from the ground was gradually decreasing.
He could even touch so of the higher branches and leaves of trees.
"No, the altitude is too low, the angle can't be raised." Wang Ye's heart was filled with anxiety.
If this trend continued, he would undoubtedly crash into the forest, eating dirt painfully.
Here one needs to ntion a piece of physical knowledge—"The higher the altitude, the lower the air density and pressure, thus the lower the air resistance." anwhile, the horizontal air currents in the high-altitude stratosphere are relatively larger. When flying in the stratosphere, flyers can utilize the fast-flowing air currents to increase speed and lift, making it easier to stabilize angles and enhance flying speed. That's why most comrcial aircraft prefer flying in the stratosphere as it saves fuel and enhances economic benefits. In contrast, the dense air and unstable currents close to the ground provide great flying resistance, making it unfavorable for flight by any living beings or machinery.
Thus, whether parachuting or wingsuit flying, high altitude is safer than low altitude.
Therefore at an altitude of 3000 ters, it's simpler for Wang Ye to maintain a parallel angle by rely riding the wind.
But flying in a low altitude environnt of hundreds of ters inevitably requires additional techniques.
Wang Ye's eyes narrowed slightly, and he sorsaulted in mid-air, kicking hard against a tree trunk.
The strong propulsion instantly sent him tens of ters upwards at an oblique angle.
Swoosh!!!
Wang Ye took advantage of the inertia, diligently extending the "wings" under his arms and crotch.
Generally, even if humans have wings, they can't fly as freely as birds. Birds maintain high-speed flight because their wing roots possess strong muscles, their bones are hollow and have air sacs, their thoraxes are large, and their excrent is primarily uric acid solid form, reducing body weight. However, humans have much denser bones, making even sufficiently large wings unlikely to generate enough lift to fly.
Wang Ye's bone density and muscle density are several tis higher than normal people. Hoping to gain sufficient lift for free flight rely by flapping arms at high frequency is clearly a fantasy; he can only strive to maintain a gliding posture and utilize the Light Body Technique to enhance buoyancy.
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Finally.
After gliding nearly five hundred ters.
Wang Ye's flight angle gradually approached 0 degrees, which is nearly a parallel angle to the ground.
Wang Ye felt slightly pleased, continuously using Wind Manipulation Skill to enhance his gliding speed.
According to modern physics, sufficient speed results in sufficient uplift. Generally, the average wingsuit flying speed is about 200 kiloters per hour, providing a minuscule uplift; Wang Ye must increase his speed to 300 kiloters per hour to obtain uplift significantly affecting his flight angle.
But then the air current's impact on his body would be extrely terrifying; even robust athletes can't maintain a stable posture under such high-speed airflow impact, and any slight posture change in wingsuit flying can cause danger.
Thus increasing speed in the air is extrely dangerous.
But this impact isn't considerable for Wang Ye. With his current muscle strength, he could withstand pressure above several thousand pounds; naturally, he can easily resist large-scale impact from high-speed airflow.
As ti goes by.
Wang Ye's speed gradually approached the extre speed of a high-speed train. Scenery on both sides swept backward constantly. He could feel his dash angle starting to rise, and the altitude on his wristwatch gradually increased from 100 ters to 150 ters.
"Great, keep increasing the speed!"
Wang Ye has maintained nearly half an hour of high-intensity output of Innate Qi.
Yet his eyes didn't show the slightest fatigue and beca increasingly excited.
It's like an athlete reaching peak condition after a brief warm-up.
As ti ticked by, Wang Ye's speed ca to 400 kiloters per hour. The rate of altitude gain increased rapidly.
The wristwatch showed the altitude gradually rising from 200 ters to 500 ters, continuing rising to an astonishing height of 1000 ters, reaching the cloud level.
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