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thepanini🐏🐉🐱🐾🗿🎼 profil fotoğrafı
thepanini🐏🐉🐱🐾🗿🎼1 yıl önce

Te quedó bien bonito🥰 (Está culero me encanta)

🇬🇹/_D.A.N.Y_/💉🤍/ 𖠎☁/ profil fotoğrafı
🇬🇹/_D.A.N.Y_/💉🤍/ 𖠎☁/1 yıl önce

feli' nabida'

Solar Heavy profil fotoğrafı
Solar Heavy1 yıl önce

take the journey

Liugi115 profil fotoğrafı
Liugi1151 yıl önce

Eh close enough!! Feliz nevidad and a happy new year!!

vDyjaz profil fotoğrafı
vDyjaz1 yıl önce

Feliz navidad for you too Luna! Love your singing and the ñ!! You should try to do a Spanish stream someday 😂

Byxis/ビクシス🐒(¢0mms OPEN!) profil fotoğrafı
Byxis/ビクシス🐒(¢0mms OPEN!)1 yıl önce

As a Spanish speaker, I say luna is now Spanish jouzu 👌

raiman🍤⛓🎇🏹🔅 profil fotoğrafı
raiman🍤⛓🎇🏹🔅1 yıl önce

Feliz navidad

AlfraX profil fotoğrafı
AlfraX1 yıl önce

Feliz navidad

ShadowNeverDie👁️‍🗨️🍵 profil fotoğrafı
ShadowNeverDie👁️‍🗨️🍵1 yıl önce

Wife material right there

Kam profil fotoğrafı
Kam1 yıl önce

let's gooooooooooooooooooooooooooooo!!!!!!!

Benzer Videolar

🚨WHY DID WITCHES AND HEALERS ALWAYS HAVE CATS IT WASN’T AESTHETICS THE CATS WERE MEDICAL EQUIPMENTS Domestic cat larynges can produce purring frequencies without neural input Most mammals produce vocal sounds according to the myoelastic-aerodynamic (MEAD) principle, through self-sustaining oscillation of laryngeal tissues. In contrast, cats have long been believed to produce their low-frequency purr vocalizations through a radically different mechanism involving active muscle contractions (AMC), where neurally driven electromyographic burst patterns (typically at 20–30 Hz) cause the intrinsic laryngeal muscles to actively modulate the respiratory airflow. Direct empirical evidence for this AMC mechanism is sparse. Here, the fundamental frequency ranges of eight domestic cats (Felis silvestris catus) were investigated in an excised larynx setup, to test the prediction of the AMC hypothesis that vibration should be impossible without neuromuscular activity, and thus unattainable in excised larynx setups, which are based on MEAD principles. Surprisingly, all eight excised larynges produced self-sustained oscillations at typical cat purring rates. Histological analysis of cat larynges revealed the presence of connective tissue masses, up to 4 mm in diameter, embedded in the vocal fold. This vocal fold specialization appears to allow the unusually low values observed in purring. While our data do not fully reject the AMC hypothesis for purring, they show that cat larynges can easily produce sounds in the purr regime with fundamental frequencies of 25 to 30 Hz without neural input or muscular contraction. This strongly suggests that the physical and phys- iological basis of cat purring involves the same MEAD-based mechanisms as other cat vocalizations and most other vertebrate vocalizations but is potentially augmented by AMC Published by Elsevier

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