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A version of a candlestick chart is a hollow candlestick chart, where both fill and color are used to represent different price relationships: [5] Solid candles show that the current close price is less than the current open price. Hollow candles show that the current close price is greater than the current open price.
Big Black Candle Has an unusually long black body with a wide range between high and low. Prices open near the high and close near the low. Considered a bearish pattern. Big White Candle Has an unusually long white body with a wide range between high and low of the day. Prices open near the low and close near the high.
A candlestick is a device used to hold a candle in place. Candlesticks have a cup or a spike ("pricket") or both to keep the candle in place. Candlesticks are sometimes called "candleholders". Before the proliferation of electricity, candles were carried between rooms using a chamberstick, a short candlestick with a pan to catch dripping wax. [1]
In layman's terms, the genus is the number of "holes" an object has ("holes" interpreted in the sense of doughnut holes; a hollow sphere would be considered as having zero holes in this sense). [3] A torus has 1 such hole, while a sphere has 0. The green surface pictured above has 2 holes of the relevant sort. For instance:
It was essentially a candlestick base with a shortened shaft of approximately one and one half inch in height, topped with a new cradle for the handset. It was later referred to as the type A handset mounting. The release of the new hand telephone set uncovered mechanical flaws, so that a new base was designed to replace the shortened candlestick.
The resulting casting has good surface detail but the wall thickness can vary. The process is usually used to cast ornamental products, such as candlesticks, lamp bases, and statuary, from low-melting-point materials. [2] A similar technique is used to make hollow chocolate figures for Easter and Christmas. [6]
The mode of failure is dependent on the material of the solid which the honeycomb is made of. Elastic buckling of the cell walls is the mode of failure for elastomeric materials, [30] ductile materials fail due to plastic yielding, and brittle crushing is the mode of failure when the solid is brittle.
A close packed unit cell, both face-centered cubic and hexagonal close packed, can form two different shaped holes. Looking at the three green spheres in the hexagonal packing illustration at the top of the page, they form a triangle-shaped hole. If an atom is arranged on top of this triangular hole it forms a tetrahedral interstitial hole.