* jhgjjhjhjhgj"When we first started making our Golf Courses, we
had to make ruffdrafts. The ruff draft paper was as big as
the real foam board we would use to make the actual Golf
Course.
We started out in pencil and then changed things to make
it better. Sometimes something was too small, so we
changed it. Then we traced it with marker. We tried to
make the ruffdraft pretty good, so when we were making
our real course we'd know what to do. The picture above
is somebody's completed ruffdraft. They would be ready
for the next step." -Josie
4 liters
An elephant's trunk can hold up to 8.5 litres(2.2 gallons) of water.
14
There is one on etsy for $19...
112lbs
It can hold up to, 8 to 17oz. It matters how big your balloon is.
Water is very good at soaking up heat. When the water-filled balloon is heated the water Draws the heat away from the rubber. For the air filled balloon, not so much. The rubber heats up, weakens, and breaks.
how much helium can a air balloon hold
it depends what type of ballon it is, and how big the ballon is
It can hold up to, 8 to 17oz. It matters how big your balloon is.
It depends, if there is a heavy pressure, the balloon will pop.
60000000000000 pounds
The balloon inflates because a chemical reaction occurs between the vinegar and the yeast. This generates a carbon dioxide gas (CO2).The gas rises to the mouth of the bottle and enters the balloon . The pressure is so strong that the balloon begins to inflate.
It depends upon the strength of the rubber making up the balloon and how much air is already in it, which will increase pressure in certain regions of balloon when stepped on. The assumption is the one is stepping on the balloon with a wide shoe bottom, rather than a stiletto heel. Sometimes, you can step on a balloon, and the part under the foot gets flattened as the air gets displaced into the stretching parts of the balloon coming out from under the sides of the foot. If the air content is low enough to not overcome the tensile strength of the rubber, then the balloon will not pop. However, if there is enough air in the balloon to overcome the tensile strength of the rubber as the air pressure increases when you step on the balloon, then the balloon will pop. What happens is the part of the balloon under the foot remains still, and the air is forced away from that region, placing more air pressure on the rest of the balloon. This stretches the balloon so that it comes out the sides of the foot. In these regions, the air pressure is much greater. Now, due to the special intermolecular bonds in rubber, the molecules can remain bound but still stretch and bend, allowing for rubber to stretch. As air pressure builds, it produces a force against the inside of the rubber, causing the rubber to stretch. If the rubber stretches past the point where the molecules separate enough to form a small tear (air hole) in the rubber, then the overall forces placed on the rubber cause a VERY rapid failure in the adjacent regions of the rubber to maintain integrity. They rip, and the rubber next to it rips, and so forth in what is called cascade failure. In all, a large rip forms along the rubber as the air escapes its container (the balloon).
It depends upon the strength of the rubber making up the balloon and how much air is already in it, which will increase pressure in certain regions of balloon when stepped on. The assumption is the one is stepping on the balloon with a wide shoe bottom, rather than a stiletto heel. Sometimes, you can step on a balloon, and the part under the foot gets flattened as the air gets displaced into the stretching parts of the balloon coming out from under the sides of the foot. If the air content is low enough to not overcome the tensile strength of the rubber, then the balloon will not pop. However, if there is enough air in the balloon to overcome the tensile strength of the rubber as the air pressure increases when you step on the balloon, then the balloon will pop. What happens is the part of the balloon under the foot remains still, and the air is forced away from that region, placing more air pressure on the rest of the balloon. This stretches the balloon so that it comes out the sides of the foot. In these regions, the air pressure is much greater. Now, due to the special intermolecular bonds in rubber, the molecules can remain bound but still stretch and bend, allowing for rubber to stretch. As air pressure builds, it produces a force against the inside of the rubber, causing the rubber to stretch. If the rubber stretches past the point where the molecules separate enough to form a small tear (air hole) in the rubber, then the overall forces placed on the rubber cause a VERY rapid failure in the adjacent regions of the rubber to maintain integrity. They rip, and the rubber next to it rips, and so forth in what is called cascade failure. In all, a large rip forms along the rubber as the air escapes its container (the balloon).
3 pounds
A standard balloon may hold about 2 litre air at normal temperature