What causes water to take spherical shape in space?
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When water is poured out in space, why does it always take a spherical ball-like shape?
water geometry surface-tension
edited 8 hours ago
Qmechanic♦
99.6k121781117
asked 11 hours ago
Shivansh J
495
add a comment |
up vote
6
down vote
favorite
When water is poured out in space, why does it always take a spherical ball-like shape?
water geometry surface-tension
edited 8 hours ago
Qmechanic♦
99.6k121781117
asked 11 hours ago
Shivansh J
495
add a comment |
up vote
6
down vote
favorite
up vote
6
down vote
favorite
When water is poured out in space, why does it always take a spherical ball-like shape?
water geometry surface-tension
edited 8 hours ago
Qmechanic♦
99.6k121781117
asked 11 hours ago
Shivansh J
495
When water is poured out in space, why does it always take a spherical ball-like shape?
water geometry surface-tension
water geometry surface-tension
edited 8 hours ago
Qmechanic♦
99.6k121781117
asked 11 hours ago
Shivansh J
495
edited 8 hours ago
Qmechanic♦
99.6k121781117
asked 11 hours ago
Shivansh J
495
edited 8 hours ago
Qmechanic♦
99.6k121781117
edited 8 hours ago
Qmechanic♦
99.6k121781117
edited 8 hours ago
Qmechanic♦
99.6k121781117
99.6k121781117
asked 11 hours ago
Shivansh J
495
asked 11 hours ago
Shivansh J
495
asked 11 hours ago
Shivansh J
495
495
add a comment |
add a comment |
3 Answers
3
active
oldest
votes
up vote
22
down vote
No, it's not because of gravity. You need to take quite a lot of water in order for gravitational effects to become significant.
It's because of surface tension. Sphere is a shape which minimizes the surface for a given volume. The surface-tension-related potential energy of the water is proportional to the surface, so spherical shape minimizes the potential energy.
answered 10 hours ago
lesnik
1,904512
7
Fun fact: this is the same reason that bubbles are round!
– Paul Belanger
8 hours ago
1
What is your "No" in reponse to? There's nothing in the question that mentions gravity.
– Barmar
5 hours ago
3
@Barmar Originally there was (the only) tag "gravity".
– lesnik
5 hours ago
add a comment |
up vote
7
down vote
Minimizing energy. If there is a small amount of water, then surface tension wants to try and minimize the surface area of it, and the minimum surface area for a given volume material is a sphere. For really large volumes of water (if you, for instance, sucked all the water out of the oceans and placed it somewhere far away in space in the standard mad-scientist way), then you also get a sphere, but for a different reason: the mass of water wants to minimize its (self-)gravitational potential energy and this is also done when it is spherical. If such a volume is in the presence of external gravitational field (for instance if it was orbiting the Earth) then it would not be completely spherical: this is one of the reasons the Moon has a slightly odd shape, for instance.
In between these two regimes -- if you had a few thousand gallons of water for instance, then although it would eventually end up spherical in the absence of other influences, this would take a very long time.
answered 10 hours ago
tfb
14.5k42848
add a comment |
up vote
2
down vote
I’m sure that a chemist could give a deeper answer. Or from Wikipedia we get, the surface tension occurs because water has hydrogen bonding.
Because of its polarity, a molecule of water in the liquid or solid state can form up to four hydrogen bonds with neighboring molecules. These bonds are the cause of water's high surface tension and capillary forces.
The key are the 4 possible hydrogen bonds to other water molecules of liquid water. The water molecules are bonded to each other like a free dimensional mesh.
Heating water, the water could be sprayed out in space to small pieces of course. The hydrogen bonds are weak (compared to metallic bonds) and under the influence of heat transfer the kinetic energy of the water molecules increases and the hydrogen bonds get broken.
answered 8 hours ago
HolgerFiedler
3,84531133
add a comment |
3 Answers
3
active
oldest
votes
3 Answers
3
active
oldest
votes
active
oldest
votes
active
oldest
votes
up vote
22
down vote
No, it's not because of gravity. You need to take quite a lot of water in order for gravitational effects to become significant.
It's because of surface tension. Sphere is a shape which minimizes the surface for a given volume. The surface-tension-related potential energy of the water is proportional to the surface, so spherical shape minimizes the potential energy.
answered 10 hours ago
lesnik
1,904512
7
Fun fact: this is the same reason that bubbles are round!
– Paul Belanger
8 hours ago
1
What is your "No" in reponse to? There's nothing in the question that mentions gravity.
– Barmar
5 hours ago
3
@Barmar Originally there was (the only) tag "gravity".
– lesnik
5 hours ago
add a comment |
up vote
22
down vote
No, it's not because of gravity. You need to take quite a lot of water in order for gravitational effects to become significant.
It's because of surface tension. Sphere is a shape which minimizes the surface for a given volume. The surface-tension-related potential energy of the water is proportional to the surface, so spherical shape minimizes the potential energy.
answered 10 hours ago
lesnik
1,904512
7
Fun fact: this is the same reason that bubbles are round!
– Paul Belanger
8 hours ago
1
What is your "No" in reponse to? There's nothing in the question that mentions gravity.
– Barmar
5 hours ago
3
@Barmar Originally there was (the only) tag "gravity".
– lesnik
5 hours ago
add a comment |
up vote
22
down vote
up vote
22
down vote
No, it's not because of gravity. You need to take quite a lot of water in order for gravitational effects to become significant.
It's because of surface tension. Sphere is a shape which minimizes the surface for a given volume. The surface-tension-related potential energy of the water is proportional to the surface, so spherical shape minimizes the potential energy.
answered 10 hours ago
lesnik
1,904512
No, it's not because of gravity. You need to take quite a lot of water in order for gravitational effects to become significant.
It's because of surface tension. Sphere is a shape which minimizes the surface for a given volume. The surface-tension-related potential energy of the water is proportional to the surface, so spherical shape minimizes the potential energy.
answered 10 hours ago
lesnik
1,904512
answered 10 hours ago
lesnik
1,904512
answered 10 hours ago
lesnik
1,904512
answered 10 hours ago
lesnik
1,904512
1,904512
7
Fun fact: this is the same reason that bubbles are round!
– Paul Belanger
8 hours ago
1
What is your "No" in reponse to? There's nothing in the question that mentions gravity.
– Barmar
5 hours ago
3
@Barmar Originally there was (the only) tag "gravity".
– lesnik
5 hours ago
add a comment |
7
Fun fact: this is the same reason that bubbles are round!
– Paul Belanger
8 hours ago
1
What is your "No" in reponse to? There's nothing in the question that mentions gravity.
– Barmar
5 hours ago
3
@Barmar Originally there was (the only) tag "gravity".
– lesnik
5 hours ago
7
7
Fun fact: this is the same reason that bubbles are round!
– Paul Belanger
8 hours ago
Fun fact: this is the same reason that bubbles are round!
– Paul Belanger
8 hours ago
1
1
What is your "No" in reponse to? There's nothing in the question that mentions gravity.
– Barmar
5 hours ago
What is your "No" in reponse to? There's nothing in the question that mentions gravity.
– Barmar
5 hours ago
3
3
@Barmar Originally there was (the only) tag "gravity".
– lesnik
5 hours ago
@Barmar Originally there was (the only) tag "gravity".
– lesnik
5 hours ago
add a comment |
up vote
7
down vote
Minimizing energy. If there is a small amount of water, then surface tension wants to try and minimize the surface area of it, and the minimum surface area for a given volume material is a sphere. For really large volumes of water (if you, for instance, sucked all the water out of the oceans and placed it somewhere far away in space in the standard mad-scientist way), then you also get a sphere, but for a different reason: the mass of water wants to minimize its (self-)gravitational potential energy and this is also done when it is spherical. If such a volume is in the presence of external gravitational field (for instance if it was orbiting the Earth) then it would not be completely spherical: this is one of the reasons the Moon has a slightly odd shape, for instance.
In between these two regimes -- if you had a few thousand gallons of water for instance, then although it would eventually end up spherical in the absence of other influences, this would take a very long time.
answered 10 hours ago
tfb
14.5k42848
add a comment |
up vote
7
down vote
Minimizing energy. If there is a small amount of water, then surface tension wants to try and minimize the surface area of it, and the minimum surface area for a given volume material is a sphere. For really large volumes of water (if you, for instance, sucked all the water out of the oceans and placed it somewhere far away in space in the standard mad-scientist way), then you also get a sphere, but for a different reason: the mass of water wants to minimize its (self-)gravitational potential energy and this is also done when it is spherical. If such a volume is in the presence of external gravitational field (for instance if it was orbiting the Earth) then it would not be completely spherical: this is one of the reasons the Moon has a slightly odd shape, for instance.
In between these two regimes -- if you had a few thousand gallons of water for instance, then although it would eventually end up spherical in the absence of other influences, this would take a very long time.
answered 10 hours ago
tfb
14.5k42848
add a comment |
up vote
7
down vote
up vote
7
down vote
Minimizing energy. If there is a small amount of water, then surface tension wants to try and minimize the surface area of it, and the minimum surface area for a given volume material is a sphere. For really large volumes of water (if you, for instance, sucked all the water out of the oceans and placed it somewhere far away in space in the standard mad-scientist way), then you also get a sphere, but for a different reason: the mass of water wants to minimize its (self-)gravitational potential energy and this is also done when it is spherical. If such a volume is in the presence of external gravitational field (for instance if it was orbiting the Earth) then it would not be completely spherical: this is one of the reasons the Moon has a slightly odd shape, for instance.
In between these two regimes -- if you had a few thousand gallons of water for instance, then although it would eventually end up spherical in the absence of other influences, this would take a very long time.
answered 10 hours ago
tfb
14.5k42848
Minimizing energy. If there is a small amount of water, then surface tension wants to try and minimize the surface area of it, and the minimum surface area for a given volume material is a sphere. For really large volumes of water (if you, for instance, sucked all the water out of the oceans and placed it somewhere far away in space in the standard mad-scientist way), then you also get a sphere, but for a different reason: the mass of water wants to minimize its (self-)gravitational potential energy and this is also done when it is spherical. If such a volume is in the presence of external gravitational field (for instance if it was orbiting the Earth) then it would not be completely spherical: this is one of the reasons the Moon has a slightly odd shape, for instance.
In between these two regimes -- if you had a few thousand gallons of water for instance, then although it would eventually end up spherical in the absence of other influences, this would take a very long time.
answered 10 hours ago
tfb
14.5k42848
answered 10 hours ago
tfb
14.5k42848
answered 10 hours ago
tfb
14.5k42848
answered 10 hours ago
tfb
14.5k42848
14.5k42848
add a comment |
add a comment |
up vote
2
down vote
I’m sure that a chemist could give a deeper answer. Or from Wikipedia we get, the surface tension occurs because water has hydrogen bonding.
Because of its polarity, a molecule of water in the liquid or solid state can form up to four hydrogen bonds with neighboring molecules. These bonds are the cause of water's high surface tension and capillary forces.
The key are the 4 possible hydrogen bonds to other water molecules of liquid water. The water molecules are bonded to each other like a free dimensional mesh.
Heating water, the water could be sprayed out in space to small pieces of course. The hydrogen bonds are weak (compared to metallic bonds) and under the influence of heat transfer the kinetic energy of the water molecules increases and the hydrogen bonds get broken.
answered 8 hours ago
HolgerFiedler
3,84531133
add a comment |
up vote
2
down vote
I’m sure that a chemist could give a deeper answer. Or from Wikipedia we get, the surface tension occurs because water has hydrogen bonding.
Because of its polarity, a molecule of water in the liquid or solid state can form up to four hydrogen bonds with neighboring molecules. These bonds are the cause of water's high surface tension and capillary forces.
The key are the 4 possible hydrogen bonds to other water molecules of liquid water. The water molecules are bonded to each other like a free dimensional mesh.
Heating water, the water could be sprayed out in space to small pieces of course. The hydrogen bonds are weak (compared to metallic bonds) and under the influence of heat transfer the kinetic energy of the water molecules increases and the hydrogen bonds get broken.
answered 8 hours ago
HolgerFiedler
3,84531133
add a comment |
up vote
2
down vote
up vote
2
down vote
I’m sure that a chemist could give a deeper answer. Or from Wikipedia we get, the surface tension occurs because water has hydrogen bonding.
Because of its polarity, a molecule of water in the liquid or solid state can form up to four hydrogen bonds with neighboring molecules. These bonds are the cause of water's high surface tension and capillary forces.
The key are the 4 possible hydrogen bonds to other water molecules of liquid water. The water molecules are bonded to each other like a free dimensional mesh.
Heating water, the water could be sprayed out in space to small pieces of course. The hydrogen bonds are weak (compared to metallic bonds) and under the influence of heat transfer the kinetic energy of the water molecules increases and the hydrogen bonds get broken.
answered 8 hours ago
HolgerFiedler
3,84531133
I’m sure that a chemist could give a deeper answer. Or from Wikipedia we get, the surface tension occurs because water has hydrogen bonding.
Because of its polarity, a molecule of water in the liquid or solid state can form up to four hydrogen bonds with neighboring molecules. These bonds are the cause of water's high surface tension and capillary forces.
The key are the 4 possible hydrogen bonds to other water molecules of liquid water. The water molecules are bonded to each other like a free dimensional mesh.
Heating water, the water could be sprayed out in space to small pieces of course. The hydrogen bonds are weak (compared to metallic bonds) and under the influence of heat transfer the kinetic energy of the water molecules increases and the hydrogen bonds get broken.
answered 8 hours ago
HolgerFiedler
3,84531133
answered 8 hours ago
HolgerFiedler
3,84531133
answered 8 hours ago
HolgerFiedler
3,84531133
answered 8 hours ago
HolgerFiedler
3,84531133
3,84531133
add a comment |
add a comment |
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