Search results
Results from the WOW.Com Content Network
Moves in the field is a name given to elements of figure skating that emphasize basic skating skill and edge control. In the context of a competitive program, 'moves in the field' include spirals , spread eagles , Ina Bauers , hydroblading , and similar extended edge moves.
A skating move where a skater pushes off the ice into the air. May be a rotational jump or a positional jump; all jumps that count as element s under the ISU Judging System are rotational jumps, whereas positional jumps count as transition s (the term jump is most often used to mean a rotational jump for this reason). jump combination Also ...
A step sequence is a required element in all four disciplines of figure skating, men's single skating, women's single skating, pair skating, and ice dance. [1] Step sequences have been defined as "steps and turns in a pattern on the ice". [1]
The Ina Bauer element is an extended fourth position in ballet in terms of where the feet are placed. However, the front leg is bent and the back leg is kept straight. It can be entered into through an inside-edge spread eagle, and, like the spread eagle, is commonly used as an entrance into jumps, adding to the difficulty level of the jump under Code of Points.
Three turn diagram. A three-turn is a figure skating element which involves both a change in direction and a change in edge. For example, when a skater executes a forward outside three-turn, the skater begins on a forward outside edge and finishes on a backwards inside edge. [1]
A rocker turn is a kind of one-foot turn in figure skating. Unlike three turns and brackets, where the entry and exit edges follow the same curve, in a rocker, the entry and exit are on opposite curves. When executing a rocker, the skater turns inward on the curve of the entry edge, but exits on a curve in the opposite sense.
See today's average mortgage rates for a 30-year fixed mortgage, 15-year fixed, jumbo loans, refinance rates and more — including up-to-date rate news.
According to scientist Deborah King from Ithaca College, there are basic physics common to all jumps, regardless of the skating techniques required to execute them. [30] Factors such as angular momentum , the moment of inertia , angular acceleration , and the skater's center of mass determines if a jump is successfully completed.