Water Tension

On Wednesday, November 19, 2014 4:38:56 PM UTC-8, G=EMC^2TreBert wrote:
What if it can be used like a cloud chamber? Made with a tint to show particle strikes .????? TreBert

Water tension proves how strong molecules hold on to each other. We know how to weaken this bond. Do we know how to make it stronger? Does this bond slow down water evaporation? Does this water film reflect light like a mirror? Does the water have to be very still to have water surface to create this film? Well its so thin and yet needs deep thinking.. TreBert

On Wednesday, December 24, 2014 11:40:12 AM UTC-8, HVAC wrote:
On 12/24/2014 10:56 AM, G=EMC^2TreBert wrote:

Water tension proves how strong molecules hold on to each other. We know how to weaken this bond. Do we know how to make it stronger? Does this bond slow down water evaporation? Does this water film reflect light like a mirror? Does the water have to be very still to have water surface to create this film? Well its so thin and yet needs deep thinking.. TreBert


All these questions have been answered long ago.
I would suggest you read a science book, but I know that not how you
roll. Reading is not exactly a strength with you, eh Bert?



--
Cut off one head, two more shall take its place.
HAIL HYDRA!
https://www.youtube.com/watch?v=FZcG5UOY224


Bert seems to getting a little tense about this water tension. Maybe it's his hypertension.

Double-A

On 12/24/2014 9:56 AM, G=EMC^2TreBert wrote:
On Wednesday, November 19, 2014 4:38:56 PM UTC-8, G=EMC^2TreBert wrote:
What if it can be used like a cloud chamber? Made with a tint to show particle strikes .????? TreBert

Water tension proves how strong molecules hold on to each other. We know how to weaken this bond. Do we know how to make it stronger? Does this bond slow down water evaporation? Does this water film reflect light like a mirror? Does the water have to be very still to have water surface to create this film? Well its so thin and yet needs deep thinking.. TreBert

that thinking was done long ago, and you are not even close

Molecules in the liquid state experience strong intermolecular
attractive forces. When those forces are between like molecules, they
are referred to as cohesive forces. For example, the molecules of a
water droplet are held together by cohesive forces, and the especially
strong cohesive forces at the surface constitute surface tension.



When the attractive forces are between unlike molecules, they are said
to be adhesive forces. The adhesive forces between water molecules and
the walls of a glass tube are stronger than the cohesive forces lead to
an upward turning meniscus at the walls of the vessel and contribute to
capillary action.



The attractive forces between molecules in a liquid can be viewed as
residual electrostatic forces and are sometimes called van der Waals
forces or van der Waals bonds.


As I recall, this was covered in physical chemistry. pick up a text,
maybe you can learn by osmosis

On Thursday, January 8, 2015 at 2:18:39 PM UTC-8, David Staup wrote:
On 12/24/2014 9:56 AM, G=EMC^2TreBert wrote:
On Wednesday, November 19, 2014 4:38:56 PM UTC-8, G=EMC^2TreBert wrote:
What if it can be used like a cloud chamber? Made with a tint to show particle strikes .????? TreBert

Water tension proves how strong molecules hold on to each other. We know how to weaken this bond. Do we know how to make it stronger? Does this bond slow down water evaporation? Does this water film reflect light like a mirror? Does the water have to be very still to have water surface to create this film? Well its so thin and yet needs deep thinking.. TreBert

that thinking was done long ago, and you are not even close

Molecules in the liquid state experience strong intermolecular
attractive forces. When those forces are between like molecules, they
are referred to as cohesive forces. For example, the molecules of a
water droplet are held together by cohesive forces, and the especially
strong cohesive forces at the surface constitute surface tension.



When the attractive forces are between unlike molecules, they are said
to be adhesive forces. The adhesive forces between water molecules and
the walls of a glass tube are stronger than the cohesive forces lead to
an upward turning meniscus at the walls of the vessel and contribute to
capillary action.



The attractive forces between molecules in a liquid can be viewed as
residual electrostatic forces and are sometimes called van der Waals
forces or van der Waals bonds.


As I recall, this was covered in physical chemistry. pick up a text,
maybe you can learn by osmosis

ur a liar , liar pants on fire. When in the cohesive mode, the electro + gravto forces aling water molecules up in a strait line, causing this 'cohesive effect, which can also be evaporated by Pure Beet Juice, works great at sugar vs. H2O(eg) adhesion

On 1/9/2015 2:37 PM, Arc Michael wrote:
On Thursday, January 8, 2015 at 2:18:39 PM UTC-8, David Staup wrote:
On 12/24/2014 9:56 AM, G=EMC^2TreBert wrote:
On Wednesday, November 19, 2014 4:38:56 PM UTC-8, G=EMC^2TreBert wrote:
What if it can be used like a cloud chamber? Made with a tint to show particle strikes .????? TreBert

Water tension proves how strong molecules hold on to each other. We know how to weaken this bond. Do we know how to make it stronger? Does this bond slow down water evaporation? Does this water film reflect light like a mirror? Does the water have to be very still to have water surface to create this film? Well its so thin and yet needs deep thinking.. TreBert

that thinking was done long ago, and you are not even close

Molecules in the liquid state experience strong intermolecular
attractive forces. When those forces are between like molecules, they
are referred to as cohesive forces. For example, the molecules of a
water droplet are held together by cohesive forces, and the especially
strong cohesive forces at the surface constitute surface tension.



When the attractive forces are between unlike molecules, they are said
to be adhesive forces. The adhesive forces between water molecules and
the walls of a glass tube are stronger than the cohesive forces lead to
an upward turning meniscus at the walls of the vessel and contribute to
capillary action.



The attractive forces between molecules in a liquid can be viewed as
residual electrostatic forces and are sometimes called van der Waals
forces or van der Waals bonds.


As I recall, this was covered in physical chemistry. pick up a text,
maybe you can learn by osmosis

ur a liar , liar pants on fire. When in the cohesive mode, the electro + gravto forces aling water molecules up in a strait line, causing this 'cohesive effect, which can also be evaporated by Pure Beet Juice, works great at sugar vs. H2O(eg) adhesion

chuckle