TRILL $HIT
Congradulations, if you ae reading this, you have enered my blog. WELCOME! My name is Eduards, i am from Latvia. Art student, i love cars, racing and everything that i can associate it with. I enjoy art and music very much. I hope you enjoy my blog.
TRILL $HIT
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mothafckenmary:

Lmao yes
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itsshock:

fuckk-y0u:

♡ 

Tumblr/Insta/Ask
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njborn95:

E30 let loose. 
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rocketumbl:

How a Car Engine Works
rocketumbl:

How a Car Engine Works
rocketumbl:

How a Car Engine Works
rocketumbl:

How a Car Engine Works
rocketumbl:

How a Car Engine Works
rocketumbl:

How a Car Engine Works
rocketumbl:

How a Car Engine Works
rocketumbl:

How a Car Engine Works
rocketumbl:

How a Car Engine Works
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highwaystarmanny:

whathaveyous:

Emily Blunt
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kushandwizdom:

Good Vibes HERE
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unusualyoung:

Mia Berg
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nubbsgalore:

photos of sakurajima, the most active volcano in japan, by (click pic) takehito miyatake (previously featured) and martin rietze. volcanic storms can rival the intensity of massive supercell thunderstorms, but the source of the charge responsible for this phenomenon remains hotly debated. 
in the kind of storm clouds that generate conventional lightning, ice particles and soft hail collide, building up positive and negative charges, respectively. they separate into layers, and the charge builds up until the electric field is high enough to trigger lightning. 
but the specific mechanism by which particles of differing charges are separated in the ash cloud is still unknown. lightning has been observed between the eruption plume and the volcano right at the start of an eruption, suggesting that there are processes that occur inside the volcano to lead to charge separation.  
volcanic lightning could yield clues about the earth’s geological past, and could answer questions about the beginning of life on our planet. volcanic lightning could have been the essential spark that converted water, hydrogen, ammonia, and methane molecules present on a primeval earth into amino acids, the building blocks of life. 
(see also: previous volcanology posts)
nubbsgalore:

photos of sakurajima, the most active volcano in japan, by (click pic) takehito miyatake (previously featured) and martin rietze. volcanic storms can rival the intensity of massive supercell thunderstorms, but the source of the charge responsible for this phenomenon remains hotly debated. 
in the kind of storm clouds that generate conventional lightning, ice particles and soft hail collide, building up positive and negative charges, respectively. they separate into layers, and the charge builds up until the electric field is high enough to trigger lightning. 
but the specific mechanism by which particles of differing charges are separated in the ash cloud is still unknown. lightning has been observed between the eruption plume and the volcano right at the start of an eruption, suggesting that there are processes that occur inside the volcano to lead to charge separation.  
volcanic lightning could yield clues about the earth’s geological past, and could answer questions about the beginning of life on our planet. volcanic lightning could have been the essential spark that converted water, hydrogen, ammonia, and methane molecules present on a primeval earth into amino acids, the building blocks of life. 
(see also: previous volcanology posts)
nubbsgalore:

photos of sakurajima, the most active volcano in japan, by (click pic) takehito miyatake (previously featured) and martin rietze. volcanic storms can rival the intensity of massive supercell thunderstorms, but the source of the charge responsible for this phenomenon remains hotly debated. 
in the kind of storm clouds that generate conventional lightning, ice particles and soft hail collide, building up positive and negative charges, respectively. they separate into layers, and the charge builds up until the electric field is high enough to trigger lightning. 
but the specific mechanism by which particles of differing charges are separated in the ash cloud is still unknown. lightning has been observed between the eruption plume and the volcano right at the start of an eruption, suggesting that there are processes that occur inside the volcano to lead to charge separation.  
volcanic lightning could yield clues about the earth’s geological past, and could answer questions about the beginning of life on our planet. volcanic lightning could have been the essential spark that converted water, hydrogen, ammonia, and methane molecules present on a primeval earth into amino acids, the building blocks of life. 
(see also: previous volcanology posts)
nubbsgalore:

photos of sakurajima, the most active volcano in japan, by (click pic) takehito miyatake (previously featured) and martin rietze. volcanic storms can rival the intensity of massive supercell thunderstorms, but the source of the charge responsible for this phenomenon remains hotly debated. 
in the kind of storm clouds that generate conventional lightning, ice particles and soft hail collide, building up positive and negative charges, respectively. they separate into layers, and the charge builds up until the electric field is high enough to trigger lightning. 
but the specific mechanism by which particles of differing charges are separated in the ash cloud is still unknown. lightning has been observed between the eruption plume and the volcano right at the start of an eruption, suggesting that there are processes that occur inside the volcano to lead to charge separation.  
volcanic lightning could yield clues about the earth’s geological past, and could answer questions about the beginning of life on our planet. volcanic lightning could have been the essential spark that converted water, hydrogen, ammonia, and methane molecules present on a primeval earth into amino acids, the building blocks of life. 
(see also: previous volcanology posts)
nubbsgalore:

photos of sakurajima, the most active volcano in japan, by (click pic) takehito miyatake (previously featured) and martin rietze. volcanic storms can rival the intensity of massive supercell thunderstorms, but the source of the charge responsible for this phenomenon remains hotly debated. 
in the kind of storm clouds that generate conventional lightning, ice particles and soft hail collide, building up positive and negative charges, respectively. they separate into layers, and the charge builds up until the electric field is high enough to trigger lightning. 
but the specific mechanism by which particles of differing charges are separated in the ash cloud is still unknown. lightning has been observed between the eruption plume and the volcano right at the start of an eruption, suggesting that there are processes that occur inside the volcano to lead to charge separation.  
volcanic lightning could yield clues about the earth’s geological past, and could answer questions about the beginning of life on our planet. volcanic lightning could have been the essential spark that converted water, hydrogen, ammonia, and methane molecules present on a primeval earth into amino acids, the building blocks of life. 
(see also: previous volcanology posts)
nubbsgalore:

photos of sakurajima, the most active volcano in japan, by (click pic) takehito miyatake (previously featured) and martin rietze. volcanic storms can rival the intensity of massive supercell thunderstorms, but the source of the charge responsible for this phenomenon remains hotly debated. 
in the kind of storm clouds that generate conventional lightning, ice particles and soft hail collide, building up positive and negative charges, respectively. they separate into layers, and the charge builds up until the electric field is high enough to trigger lightning. 
but the specific mechanism by which particles of differing charges are separated in the ash cloud is still unknown. lightning has been observed between the eruption plume and the volcano right at the start of an eruption, suggesting that there are processes that occur inside the volcano to lead to charge separation.  
volcanic lightning could yield clues about the earth’s geological past, and could answer questions about the beginning of life on our planet. volcanic lightning could have been the essential spark that converted water, hydrogen, ammonia, and methane molecules present on a primeval earth into amino acids, the building blocks of life. 
(see also: previous volcanology posts)
nubbsgalore:

photos of sakurajima, the most active volcano in japan, by (click pic) takehito miyatake (previously featured) and martin rietze. volcanic storms can rival the intensity of massive supercell thunderstorms, but the source of the charge responsible for this phenomenon remains hotly debated. 
in the kind of storm clouds that generate conventional lightning, ice particles and soft hail collide, building up positive and negative charges, respectively. they separate into layers, and the charge builds up until the electric field is high enough to trigger lightning. 
but the specific mechanism by which particles of differing charges are separated in the ash cloud is still unknown. lightning has been observed between the eruption plume and the volcano right at the start of an eruption, suggesting that there are processes that occur inside the volcano to lead to charge separation.  
volcanic lightning could yield clues about the earth’s geological past, and could answer questions about the beginning of life on our planet. volcanic lightning could have been the essential spark that converted water, hydrogen, ammonia, and methane molecules present on a primeval earth into amino acids, the building blocks of life. 
(see also: previous volcanology posts)
nubbsgalore:

photos of sakurajima, the most active volcano in japan, by (click pic) takehito miyatake (previously featured) and martin rietze. volcanic storms can rival the intensity of massive supercell thunderstorms, but the source of the charge responsible for this phenomenon remains hotly debated. 
in the kind of storm clouds that generate conventional lightning, ice particles and soft hail collide, building up positive and negative charges, respectively. they separate into layers, and the charge builds up until the electric field is high enough to trigger lightning. 
but the specific mechanism by which particles of differing charges are separated in the ash cloud is still unknown. lightning has been observed between the eruption plume and the volcano right at the start of an eruption, suggesting that there are processes that occur inside the volcano to lead to charge separation.  
volcanic lightning could yield clues about the earth’s geological past, and could answer questions about the beginning of life on our planet. volcanic lightning could have been the essential spark that converted water, hydrogen, ammonia, and methane molecules present on a primeval earth into amino acids, the building blocks of life. 
(see also: previous volcanology posts)
nubbsgalore:

photos of sakurajima, the most active volcano in japan, by (click pic) takehito miyatake (previously featured) and martin rietze. volcanic storms can rival the intensity of massive supercell thunderstorms, but the source of the charge responsible for this phenomenon remains hotly debated. 
in the kind of storm clouds that generate conventional lightning, ice particles and soft hail collide, building up positive and negative charges, respectively. they separate into layers, and the charge builds up until the electric field is high enough to trigger lightning. 
but the specific mechanism by which particles of differing charges are separated in the ash cloud is still unknown. lightning has been observed between the eruption plume and the volcano right at the start of an eruption, suggesting that there are processes that occur inside the volcano to lead to charge separation.  
volcanic lightning could yield clues about the earth’s geological past, and could answer questions about the beginning of life on our planet. volcanic lightning could have been the essential spark that converted water, hydrogen, ammonia, and methane molecules present on a primeval earth into amino acids, the building blocks of life. 
(see also: previous volcanology posts)
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motion-captured:

Since the Idlers Club is probably best known for wild 911’s, I thought I’d dedicate this post to the RWB’s et al. It’s somehow very Japanese to throw the rulebook out when it comes to tuning Porsches - not many people in the west would dare to ‘improve’ the styling of Stuttgart’s most iconic form, or would at least attempt to keep modifications in period, which is why the super-wide-body, huge double-stacked spoilers and extreme stancing are so striking.
motion-captured:

Since the Idlers Club is probably best known for wild 911’s, I thought I’d dedicate this post to the RWB’s et al. It’s somehow very Japanese to throw the rulebook out when it comes to tuning Porsches - not many people in the west would dare to ‘improve’ the styling of Stuttgart’s most iconic form, or would at least attempt to keep modifications in period, which is why the super-wide-body, huge double-stacked spoilers and extreme stancing are so striking.
motion-captured:

Since the Idlers Club is probably best known for wild 911’s, I thought I’d dedicate this post to the RWB’s et al. It’s somehow very Japanese to throw the rulebook out when it comes to tuning Porsches - not many people in the west would dare to ‘improve’ the styling of Stuttgart’s most iconic form, or would at least attempt to keep modifications in period, which is why the super-wide-body, huge double-stacked spoilers and extreme stancing are so striking.
motion-captured:

Since the Idlers Club is probably best known for wild 911’s, I thought I’d dedicate this post to the RWB’s et al. It’s somehow very Japanese to throw the rulebook out when it comes to tuning Porsches - not many people in the west would dare to ‘improve’ the styling of Stuttgart’s most iconic form, or would at least attempt to keep modifications in period, which is why the super-wide-body, huge double-stacked spoilers and extreme stancing are so striking.
motion-captured:

Since the Idlers Club is probably best known for wild 911’s, I thought I’d dedicate this post to the RWB’s et al. It’s somehow very Japanese to throw the rulebook out when it comes to tuning Porsches - not many people in the west would dare to ‘improve’ the styling of Stuttgart’s most iconic form, or would at least attempt to keep modifications in period, which is why the super-wide-body, huge double-stacked spoilers and extreme stancing are so striking.
motion-captured:

Since the Idlers Club is probably best known for wild 911’s, I thought I’d dedicate this post to the RWB’s et al. It’s somehow very Japanese to throw the rulebook out when it comes to tuning Porsches - not many people in the west would dare to ‘improve’ the styling of Stuttgart’s most iconic form, or would at least attempt to keep modifications in period, which is why the super-wide-body, huge double-stacked spoilers and extreme stancing are so striking.
motion-captured:

Since the Idlers Club is probably best known for wild 911’s, I thought I’d dedicate this post to the RWB’s et al. It’s somehow very Japanese to throw the rulebook out when it comes to tuning Porsches - not many people in the west would dare to ‘improve’ the styling of Stuttgart’s most iconic form, or would at least attempt to keep modifications in period, which is why the super-wide-body, huge double-stacked spoilers and extreme stancing are so striking.
motion-captured:

Since the Idlers Club is probably best known for wild 911’s, I thought I’d dedicate this post to the RWB’s et al. It’s somehow very Japanese to throw the rulebook out when it comes to tuning Porsches - not many people in the west would dare to ‘improve’ the styling of Stuttgart’s most iconic form, or would at least attempt to keep modifications in period, which is why the super-wide-body, huge double-stacked spoilers and extreme stancing are so striking.
motion-captured:

Since the Idlers Club is probably best known for wild 911’s, I thought I’d dedicate this post to the RWB’s et al. It’s somehow very Japanese to throw the rulebook out when it comes to tuning Porsches - not many people in the west would dare to ‘improve’ the styling of Stuttgart’s most iconic form, or would at least attempt to keep modifications in period, which is why the super-wide-body, huge double-stacked spoilers and extreme stancing are so striking.
motion-captured:

Since the Idlers Club is probably best known for wild 911’s, I thought I’d dedicate this post to the RWB’s et al. It’s somehow very Japanese to throw the rulebook out when it comes to tuning Porsches - not many people in the west would dare to ‘improve’ the styling of Stuttgart’s most iconic form, or would at least attempt to keep modifications in period, which is why the super-wide-body, huge double-stacked spoilers and extreme stancing are so striking.