@danielswall: Reply to @deviiinanewdress Did You Kow That This Massive Song Was A Complete Accident? #singer #songwriter #popmusic #thekidlaroi #charlieputh #justinbieber #accident #singersongwriter #mood #stay #songwriting #demo #piano #24kgoldn @Charlie Puth

Daniel Wall
Daniel Wall
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Friday 28 January 2022 01:53:29 GMT
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yllenmh
N :
I swear Charlie Puth is a musical genius😳
2022-01-28 02:11:53
24403
aguiillon1
aguiillon1 :
Yes I was also a accident 😔
2022-01-29 06:50:25
5897
chiefveece
davis james ☁️ :
It’s not an accident it’s artists collaborating lol
2022-01-28 06:43:20
9410
corey2k_24
Corey king :
if someone writes lyrics Makes a beat and goes in the studio then it’s not an accident it was on purpose
2022-01-28 02:09:01
6877
sammyboychip
Sammyboychip :
“Tik tok song” 😂😂😂😂 oh man 🤦🏼‍♂️
2022-01-28 11:41:03
2258
danjuice_
Danny Lopez :
There’s like 7 writers credited for this. Lol. Okay.
2022-01-28 03:32:07
713
stephanielamb5
Stephanie Lamb :
Why does Charlie always write a accident song? 😂
2022-01-31 04:06:00
699
marathontomexico
REAPERXXX :
Industry plants 🌱
2022-01-28 08:07:27
112
double_a_dee
Double_A_Dee 🇨🇦🇦🇺 :
…by accident. Not on accident.
2022-01-28 05:47:52
776
danielswall
Daniel Wall :
Credit: The Edge Nights Catchup Podcast
2022-01-28 04:02:49
132
zainimf
RoiZain :
Sometimes accidents can be a blessing in disguise, unless you’re me
2022-01-28 02:09:02
702
snaptapestry123
SnapTapestry :
He just came up with the first part of the lyrics guys, and Puth came up with that beat that’s what he means by accident, it wasn’t intended to happen
2022-01-28 04:54:56
67
slasher_ftk
Luke_slasheR :
There not “tiktok” songs
2022-02-04 04:46:54
75
vineedaloan
💰🦅 :
It wasn’t a accident lmao
2022-01-28 02:36:28
126
emi_aru
EmiMaccas :
Damn 😳
2022-01-28 01:56:12
57
lkay396
user4558472725561 :
How did Justin Bieber get involved in the project?
2022-01-28 06:32:56
1
a_million_dreams19
Jennifer Davis :
I am 100% convinced creative people come up with their best peace out of no where
2022-01-31 02:49:38
213
the_comebackdr
the_comebackdr :
Charlie does everything on accident istg
2022-01-31 06:38:36
20
dr.ichabodcrane
. :
So Charlie came up with every little thing she does is magic?
2022-01-28 03:01:02
226
anita_rhodes23
Anita Rhodes :
It’s not a TikTok song 🙄
2022-02-03 07:26:00
8
raulirokrios
Raul Irok Rios :
I’m a music producer most songs are written on accident, why is this so shocking ?
2022-01-31 15:19:46
124
jokersyndrail
JokerSy :
That just makes you a blessing in general, no disguising that.
2022-01-31 05:55:30
9
seasidesloths
Seaside Sloths :
Well it’s hardly an accident if they tried to think of something and then thought of it. Basically just the same as how every other song is written.
2022-01-31 11:02:55
14
r8ktshell
Shelly :
I thought it was Justin Bieber singing this whole time😳
2022-01-28 17:40:43
50
b21self
B21 :
imagine having someone with perfect tone as his producer lucky
2022-01-31 06:39:15
9
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The RT-64, also known as the Bear Lakes Radio Telescope, was introduced in 1963 as one of the Soviet Union’s most ambitious scientific instruments, blending astronomical exploration with military utility during the peak of the Cold War. With its massive 64-meter parabolic dish, it stood as one of the largest and most sensitive radio telescopes in the world at the time—an enormous, rotating ear pointed toward the cosmos, capable of both celestial observation and deep-space tracking. What made the RT-64 revolutionary wasn't merely its size, but its dual-purpose design, combining high-precision astronomical measurements with real-time surveillance and communication interception capabilities. Located near Moscow and built under extreme secrecy, the RT-64 became a quiet but vital node in the Soviet Union’s scientific and strategic networks. At the heart of its functionality was its tracking accuracy and sensitivity. The RT-64 was designed to operate in a wide range of frequencies, primarily within the centimetric and decimetric radio bands. This allowed it to capture faint radio signals from distant galaxies, quasars, and pulsars—at a time when even the concept of detecting such phenomena was still emerging. Its large aperture meant it had a collecting area of over 3,200 square meters, enabling it to peer deep into the universe with unprecedented clarity for the Eastern Bloc. But beyond its academic uses, the RT-64 served a strategic role in the space race and military observation. It played a key role in tracking spacecraft—both Soviet and foreign—including interplanetary probes and early satellites. It could receive telemetry from deep-space missions like Luna, Venera, and Mars, acting as a control and data relay station during critical moments of planetary exploration. There are strong indications that it was also used to monitor American spacecraft, intercept telemetry, and analyze foreign satellite behavior. The RT-64 was also part of the Soviet VLBI (Very Long Baseline Interferometry) network. By linking it with other radio observatories across the USSR and later internationally, scientists could simulate a telescope the size of a continent. This allowed for ultra-high-resolution imaging of astronomical objects and contributed to the global understanding of the structure of the universe. Structurally, the RT-64 was a marvel of Soviet engineering. Its dish was mounted on a massive azimuth-elevation platform, allowing full 360° rotation and high-angle elevation for sky coverage. Despite being built during an era of analog electronics and limited computing power, it was equipped with precision servomechanisms and signal processors that gave it capabilities on par with, and in some cases exceeding, its Western counterparts. While today it may not enjoy the same prominence as modern telescopes like ALMA or FAST, the RT-64 remains operational and scientifically relevant. It has been modernized and continues to contribute to radio astronomy and planetary radar experiments. It also symbolizes a period when science and geopolitics were deeply intertwined, when listening to the stars was as much about knowledge as it was about national security. The RT-64 stands not only as a legacy of Soviet scientific ambition, but also as a quiet sentinel, still turning its gaze skyward, bridging a time when space was the ultimate frontier for both peace and power. #radio #telescope #radiotelescope #big #antenna #coldwar #ussr #sovietunion #russia #military #vehicles #fyp #tiktok
The RT-64, also known as the Bear Lakes Radio Telescope, was introduced in 1963 as one of the Soviet Union’s most ambitious scientific instruments, blending astronomical exploration with military utility during the peak of the Cold War. With its massive 64-meter parabolic dish, it stood as one of the largest and most sensitive radio telescopes in the world at the time—an enormous, rotating ear pointed toward the cosmos, capable of both celestial observation and deep-space tracking. What made the RT-64 revolutionary wasn't merely its size, but its dual-purpose design, combining high-precision astronomical measurements with real-time surveillance and communication interception capabilities. Located near Moscow and built under extreme secrecy, the RT-64 became a quiet but vital node in the Soviet Union’s scientific and strategic networks. At the heart of its functionality was its tracking accuracy and sensitivity. The RT-64 was designed to operate in a wide range of frequencies, primarily within the centimetric and decimetric radio bands. This allowed it to capture faint radio signals from distant galaxies, quasars, and pulsars—at a time when even the concept of detecting such phenomena was still emerging. Its large aperture meant it had a collecting area of over 3,200 square meters, enabling it to peer deep into the universe with unprecedented clarity for the Eastern Bloc. But beyond its academic uses, the RT-64 served a strategic role in the space race and military observation. It played a key role in tracking spacecraft—both Soviet and foreign—including interplanetary probes and early satellites. It could receive telemetry from deep-space missions like Luna, Venera, and Mars, acting as a control and data relay station during critical moments of planetary exploration. There are strong indications that it was also used to monitor American spacecraft, intercept telemetry, and analyze foreign satellite behavior. The RT-64 was also part of the Soviet VLBI (Very Long Baseline Interferometry) network. By linking it with other radio observatories across the USSR and later internationally, scientists could simulate a telescope the size of a continent. This allowed for ultra-high-resolution imaging of astronomical objects and contributed to the global understanding of the structure of the universe. Structurally, the RT-64 was a marvel of Soviet engineering. Its dish was mounted on a massive azimuth-elevation platform, allowing full 360° rotation and high-angle elevation for sky coverage. Despite being built during an era of analog electronics and limited computing power, it was equipped with precision servomechanisms and signal processors that gave it capabilities on par with, and in some cases exceeding, its Western counterparts. While today it may not enjoy the same prominence as modern telescopes like ALMA or FAST, the RT-64 remains operational and scientifically relevant. It has been modernized and continues to contribute to radio astronomy and planetary radar experiments. It also symbolizes a period when science and geopolitics were deeply intertwined, when listening to the stars was as much about knowledge as it was about national security. The RT-64 stands not only as a legacy of Soviet scientific ambition, but also as a quiet sentinel, still turning its gaze skyward, bridging a time when space was the ultimate frontier for both peace and power. #radio #telescope #radiotelescope #big #antenna #coldwar #ussr #sovietunion #russia #military #vehicles #fyp #tiktok

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