@roijun2709: Ronaldo vs Spain WorldCup 2018 ☠️🔥#ronaldo #cr7 #hattrick #goat #portugal #spain #worldcup #viral #football #kennybig789 #fyp

𝙍𝙤𝙣𝙖𝙡𝙙𝙤 𝘼𝙧𝙘𝙝𝙞𝙫𝙚
𝙍𝙤𝙣𝙖𝙡𝙙𝙤 𝘼𝙧𝙘𝙝𝙞𝙫𝙚
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Region: VN
Friday 20 October 2023 11:14:55 GMT
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powerworldfullmon
zaw zaw :
ပင်နယ်တီသွင်းပြီးအောင်ပွဲခံနေသော ပင်နယ်ဒို😂😂 မာယာပေါင်းတစ်သိန်း😅
2023-11-09 00:28:39
2
fancung2k
World cup ⚽ 2026 Rôsi 🤗 :
đúng chất gánh team
2023-10-20 14:03:46
7
quangduyy.06
QuangDuyy :
nhìn các hung thần bên tay ban nha kìa
2023-11-14 12:36:21
2
jonasdias6923
Jonas Dias :
melhor de todos os tempos
2023-11-11 22:06:08
1
quemiraibobo07
알시데스 :
fijate la de Messi y te sorprende 👎
2023-11-10 13:51:53
2
hoavong1
Mimvuong efootball :
Xem trận này la rát cổ lun
2023-10-21 10:14:58
5
user85202612121118
tarek2510 :
c quoi le foot après Ronaldo 😳
2023-11-11 07:55:04
1
npod142
ป๋าแต๋น :
เด แฮ
2023-11-11 02:43:58
1
giangnguyendragon
Giang Nguyễn :
Nhiều fan phong trào của ai đó bảo cr7 chỉ toàn ghi bàn vào đảo với cù lao . Chắc tây ban nha này là cù lao rồi phải ko ae
2023-10-20 17:54:52
17
1881ndgl
SIRO 107 :
Kính chiếu Var xuất hiện cái perez tống đi ngay ko thì lộ hết bí mật mua tài 😭😭😭😭
2023-10-21 05:42:47
10
tamhoangtrung
Tam hoang trung :
Chê Cr7 chỉ có thể là fan Messi
2023-10-21 12:34:01
15
allissonsantiagos
Allisson Santiago Santiago :
pênalti mais fake que o Mundial do parmeira
2023-11-11 14:49:01
1
fancung2k
World cup ⚽ 2026 Rôsi 🤗 :
Tự làm tự ăn
2023-10-20 14:04:00
1
shwesonnyo17
ALEXANDER JERRY 7 :
siuuuuuuuuuu👑👑goat🇵🇹🐐
2023-11-09 00:09:16
14
vothanhdatqt
Vothanhđat :
Nếu trận này không có Ro thì chắc chắn Bồ đào nha thua Tây Ban nha,đẳng cấp gánh team.Siuu ❤️
2023-11-05 06:06:08
9
myprincess.079
Pham Ky Han🧖🏼‍♀️ :
Tự làm tự ăn là có thật👍
2023-10-21 09:19:22
9
thaytuongsosoma
Thầy Tướng Số :
Siêu luôn, quyết tâm cao ngất trời.
2023-10-23 11:18:40
5
suhailsulusulu4
sulu :
That match 🥰
2023-11-10 12:11:23
4
carprobatam
CarPro Batam :
Lord of Pinalty 🔥🔥🔥
2023-11-04 03:25:50
3
lubukberingin0
anakdesa :
lord guaaa jagi diving😭😭
2023-11-08 09:54:07
3
kwai_yokteam
(づ。◕‿‿◕。)づ BeNz :
มือโกลที่เหนียวที่สุด มาเจอกับเครื่องจักรสังหารที่ยิงคมที่สุด😳
2023-11-02 01:31:44
3
useraljoeiid99
T....Ở Đảo 🤫 :
siêu ránh team🥰
2023-11-11 07:23:33
3
my83435
My Nguyễn :
Costa rất tốt nhưng rất tiếc có Ronaldo ở đấy 🥰
2023-10-24 02:34:53
3
salemrenovasi
salemrenovasi :
🥰🥰🥰 CR7 SIUUUU
2023-11-27 12:24:29
3
prakashparajuli777
prakashparajuli777 :
🥰😍
2023-10-20 14:10:47
3
atram067
atram067 :
És o maior de todos 🥰
2023-11-11 22:10:07
2
user92nd8jpua5
Айбол :
рональдо постоянно на штрафной падает и пенальти запрашивает. как будто он это специально делает. а месси хоть как бы не падал он встаёт и сам забывае
2023-11-11 08:59:57
2
trn.xun.hng7
trn.xun.hng7🫥 :
Trận này phải nói là đẳng cấp gánh team luôn
2023-11-11 08:30:38
2
nguoichanchinhkk
nguoichanchinhkk :
Siuuu, giờ chỉ sợ a 7 k đá nữa
2023-10-21 10:40:49
2
lisekyee
LiSekYee :
GOAT vs Spain
2023-11-12 09:46:41
2
user8825573085745
𝑨𝒍𝒆𝒋𝒂𝒏𝒅𝒓𝒐 𝒔𝒂𝒏𝒄𝒉 :
no lo toco le regalan los goles. ⚽⚽⚽
2023-11-10 00:23:22
2
juvitudealmeida
J,D,Almeyda😍😊... :
Siuuuuuuuu👑⚽️
2023-11-09 02:46:54
2
zexka1
Zaka'ta :
vibes😎
2023-11-08 08:03:42
2
hanoi867
Hanoi88 :
Bởi vậy nhiều người k thích var 😂
2023-11-01 11:55:01
2
14d_uc5
🦦 :
pha đầu cỏ hơi cao
2023-12-19 14:20:36
2
caubedo34
Cư Bụ :
cú vấp thật quen thuộc hình như ta đã từng thấy nó ở đâu rồi
2023-10-21 11:23:26
2
baochosss8686
TcB :
Fan cr7 từ trận này😁
2023-10-24 07:25:01
2
nghia37e1
Nghĩa ở Hạnh Lâm 🤡 :
Gieo sầu khắp nơi 😂😂😂
2023-10-24 06:34:08
2
diddles43
Diddles🏎️ :
Don’t you ever compare…
2023-11-11 17:53:33
1
nguoimuavu
nguoimuavui :
Từ Trận này mà nhiều người lấy cớ vấp cỏ cay nghiệt a7 đây.
2023-11-11 04:27:34
1
apriano_ija
User123 :
Bang mau nanya pas ini bang dodo angkat bdor ga?
2023-10-31 13:44:13
1
jordangabriel225
jordangabriel225 :
Penaldo🥰
2023-11-11 13:55:25
1
hermansaleh05
hermansaleh56 :
bukan manusia
2023-11-07 05:11:45
1
tdt.0201
Tdt0807 :
bàn đầu ăn vạ kiếm pen 🙈
2023-10-24 03:18:48
1
quyorion1993
Hoạ Sĩ Người Áo :
vấp cỏ
2023-10-23 23:59:29
1
daodung43
Đào Dũng :
ăn vạ kiếm pen nổi tiếng nhất lịch sử
2023-10-23 21:51:31
1
alexngoubenemila
Ngoubene Mila :
J'ai fait le meilleur joueur de tout les temps joués, merci seigneur🙏🏽❤️
2023-11-24 14:27:41
1
hungnguyen_hung
Nguyễn Hưng :
Trận này xem đúng cảm xúc
2023-11-23 10:42:52
1
topik_arian
Topik_Arian :
degea salah profokasi orang, yg ada malah dirinya babak belur🗿
2023-11-22 05:34:29
1
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Your strength output is determined upstream of the muscle. The signal your nervous system sends to it, its intensity, its organisation, and how well it holds up under fatigue, shapes force production before the muscle ever contracts. Neural drive is the net excitatory input arriving at the motor neurone pool. It works through two things: recruitment, which motor neurones activate, and rate coding, how fast they fire. At lower forces, recruitment is the main lever. As the motor neurone pool fills up, rate coding takes over as the primary way to increase force. The handoff between the two depends on contraction type, speed, and the properties of the motor neurone pool itself. What makes this practically important is that neural drive is not fixed. Early training-induced strength gains are partly explained by decreased motor unit recruitment thresholds and increased discharge rates, independent of muscle hypertrophy (Škarabot et al., 2020). Fatigue changes it. Pain changes it. The signals your muscle sends back to your brain during a contraction, through group III and IV afferents responding to metabolite accumulation, actively reduce motor drive in ways that precede peripheral muscle failure. The clearest evidence for this is supraspinal fatigue: a progressive reduction in motor cortex output during sustained maximal effort. During a maximal sustained contraction, TMS-evoked force increments increase over time, meaning the motor cortex was not providing full drive even at maximal effort. That supraspinal component accounts for roughly 25% of force loss during sustained maximal effort (Taylor, Todd and Gandevia, 2006). This is what my research is about. And we can now measure individual motor neurone firing patterns non-invasively using high-density surface EMG with motor unit decomposition. That is a relatively recent capability, and it is changing what we can actually study. More on all of this in upcoming videos. What do you want covered first? Drop it in the comments. #neurophysiology #exercisescience #motorunits #neuralcontrol #fatigue @Biomechanics Centre @Quinton @Keenanrmalloy @MuscleMechanicsLab @Jackson @thesciencebasedlifter @Parker White
Your strength output is determined upstream of the muscle. The signal your nervous system sends to it, its intensity, its organisation, and how well it holds up under fatigue, shapes force production before the muscle ever contracts. Neural drive is the net excitatory input arriving at the motor neurone pool. It works through two things: recruitment, which motor neurones activate, and rate coding, how fast they fire. At lower forces, recruitment is the main lever. As the motor neurone pool fills up, rate coding takes over as the primary way to increase force. The handoff between the two depends on contraction type, speed, and the properties of the motor neurone pool itself. What makes this practically important is that neural drive is not fixed. Early training-induced strength gains are partly explained by decreased motor unit recruitment thresholds and increased discharge rates, independent of muscle hypertrophy (Škarabot et al., 2020). Fatigue changes it. Pain changes it. The signals your muscle sends back to your brain during a contraction, through group III and IV afferents responding to metabolite accumulation, actively reduce motor drive in ways that precede peripheral muscle failure. The clearest evidence for this is supraspinal fatigue: a progressive reduction in motor cortex output during sustained maximal effort. During a maximal sustained contraction, TMS-evoked force increments increase over time, meaning the motor cortex was not providing full drive even at maximal effort. That supraspinal component accounts for roughly 25% of force loss during sustained maximal effort (Taylor, Todd and Gandevia, 2006). This is what my research is about. And we can now measure individual motor neurone firing patterns non-invasively using high-density surface EMG with motor unit decomposition. That is a relatively recent capability, and it is changing what we can actually study. More on all of this in upcoming videos. What do you want covered first? Drop it in the comments. #neurophysiology #exercisescience #motorunits #neuralcontrol #fatigue @Biomechanics Centre @Quinton @Keenanrmalloy @MuscleMechanicsLab @Jackson @thesciencebasedlifter @Parker White

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