No great loss, though; the tail debris adds up to the equivalent of only a 24 - meter -
diameter ball of rock.
Not exact matches
To roll out the cookies, place a
ball of dough about 3 or 4 - inches in
diameter on a lightly floured surface.
Take 4 very large sheets
of tin foil and crumble them into 4
balls (approximately 4 inch
ball diameter).
Shape
balls out
of the dough — you want them to be about 1 1/2 inches in
diameter.
Using a rolling pin, roll each
ball of dough into a 7 - inch
diameter circle.
Divide the dough into 5
balls, rolling each one to 7» in
diameter (this is easiest between two layers
of parchment paper.
To start, pinch off a little dough and roll into a
ball about 3/4
of an inch in
diameter.
Beginning in the center
of the
ball and working your way to the edges, use your fingertips and palms to gently press the dough into a circle about 8 1/2 inches in
diameter, leaving a slightly raised 1 / 4 - inch wide rim.
Use your hands to roll about 18
balls of 1»
diameter and 18
balls of 1/4 -1 / 2»
diameter.
Roll into
balls that are about 2» in
diameter, then flatten into a burger patty between your hands or onto a cutting board, or my favorite way, between two pieces
of parchment paper (great for not sticking).
With lightly moistened fingers, gently flatten each
ball of dough into a 2 inch (5 cm)
diameter cookie.
Dust hands with garbanzo bean flour, scoop a small amount
of dough (1/2 cup) and roll into a 3 to 4 inch
diameter ball.
Make small round
balls of 1 inch
diameter and set aside.
Take small clumps
of the mixture and patties that are 2 inches in
diameter roughly 1/4 inch thick or into
balls the size
of golf
balls.
Grab a 6 - inch
diameter circular baking pan, line it with parchment paper and add the
balls of dough in a single layer, then brush the dough with some extra virgin Spanish olive oil, season with sea salt and a sprinkle
of garlic powder, shred in about 1 cup
of Manchego cheese and top off with some thinly sliced Spanish olives
With a small scoop or 2 teaspoons, form small
balls of dough less than one inch in
diameter.
Break off small pieces
of brownie dough and roll tightly into
balls about 1 / 2 - inch in
diameter.
In your hands, roll the pieces
of dough into
balls and then flatten them into disks 4 inches in
diameter.
Crumple 2 large sheets
of heavy - duty foil to form two 4» -
diameter balls.
Using the fleshy part
of your palm, gently tap the
balls of dough to flatten into a disc, about 1 1/2 inches wide in
diameter.
On a lightly floured surface or with the assistance
of a sheet
of plastic wrap surrounding the dough
ball, roll the dough with your hands to form two 8 - inch logs, 2 inches in
diameter.
Take one piece
of dough, roll it into a
ball between your palms, coat it generously with flour, flatten it into a disc, and then roll it out to around 4 inches in
diameter.
Place another piece
of parchment (or whatever you're using) over and press down to flatten each
ball into a patty 5» in
diameter.
Crumple a large sheet
of foil to form a 3» -
diameter ball.
Scoop about 2 tbs
of the dough, and with wet fingers form small
balls, about an inch in
diameter.
To get a great ratio
of crisp exterior and moist interior, make the falafel
balls small — just an inch or two in
diameter.
Once set, make a
ball no wider than the
diameter of the muffin or candy mold and press it on top
of the chocolate base, being careful not to touch the sides
of the mold but also to try to make as flat a surface as possible.
Avoid marbles,
balls, and games with
balls that have
balls with a
diameter of 1.75 inches or less.
Wool dryer
balls are usually 5 - 7 inches in
diameter, ranging from roughly the size
of a tennis
ball to the size
of a softball.
Roll out a
ball of pastry dough one at a time between saran wrap until approximately 6 ″
diameter.
At first you will need the
ball with a
diameter of 45 cm, and then you can get 55 cm and 75 cm.
Let cool and then, with damp hands, roll into small
balls of approximately 1 ″
diameter.
The size
of a typical baseball, the Monster Indestructible
Ball's 2.75»
diameter may not seem like much, but it's tough!
The three - pack
of balls comes in a tennis
ball size with a 2.5»
diameter as well as a smaller 1.9»
diameter that works well for puppies and smaller breeds.
This four - pack
of rope toys comes with a small 2.5»
diameter rope
ball, two knotted ropes, and a rope with a handle for tug -
of - war.
In fact it's a tight collection
of several hundred thousand stars, most
of which are packed into a
ball just a few light - years across (though the whole object is over 100 light - years in
diameter).
Materials • LEGO bricks • Large, flat LEGO baseplate • Metric ruler • Three - ring binder (an old one that is okay to take apart) • Scissors • Four small rubber
balls (each the same size, about 2.5 centimeters in
diameter) • Two rubber bands (each about eight centimeters or longer when flattened and doubled on itself) Preparation • Carefully cut the front and back covers off
of the three - ring binder with scissors.
LIGO must be unbelievably sensitive to measure this change in the length
of the legs, which is smaller than one ten - thousandth the
diameter of a proton, or less than the size
of a soccer
ball compared with the span
of the Milky Way.
A neutron star is the remnant
of a brilliant star that burned out and collapsed into a
ball about 12 miles across, twice the
diameter of an equivalent black hole.
The big question is how large must the
balls be to fall through the flow
of oil and gas, To find out, Wattenburg suggests using a connection from the surface to the so - called blow - out preventer (BOP) on top
of the well to pump in steel
balls with a range
of diameters up to about 3.8 centimeters (1.5 inches).
If the steel
balls are big enough in
diameter, their weight will pull them downward even through the upward - rushing torrent
of oil and gas.
Consequently, while it was floating, the
ball should have displaced the same amount
of water as it decreased in
diameter, and so the buoyant force should have remained the same.
When the aluminum
ball had a
diameter of 6.0 cm, the
ball should have floated well because it had a density lower than that
of water due to the air inside
of the
ball, just like steel ships that can float because their density has been lowered by encasing air inside the hull.
Observations and results Did more and more
of the
ball end up below the top
of the water as the
ball's
diameter decreased?
With a
diameter of about 1.6 cm or smaller, the
ball should have completely sank, indicating that its density was greater than that
of water, thereby overcoming the buoyant force.
For each
diameter you test, what percentage
of the
ball is submerged?
However, the density
of the
ball was changing — it increased as the
ball's
diameter decreased.
Coming as close as 5000 kilometers to the 140,000 - kilometer -
diameter gas
ball, Juno and it's gravity - gauging system should measure the mass
of any rocky core at the center
of Jupiter.
Having so much mass packed within a
ball on the order
of 20 km (12 miles) in
diameter, a neutron star has a density that can reach that
of nuclear values, which is roughly 100 trillion (1014) times the average density
of solar matter or
of water.
A medicine
ball is a type
of exercise
ball that is approximately 14 inches (35.6 centimeters) in
diameter and comes in various weights ranging from 2 to 25 pounds (0.91 to 11.34 kilograms).