Off ice? I was a figure skater and I did ballet and cardio for exercise. On the ice I did drills and figures.
You do not need to be fit to be a figure skater but it would help. Being a figure skater takes a lot of work and if you don't start off fit and you keep with the sport you will need to become fit!
Kinetic friction between the skate blades and the ice pushes the skater ahead. This friction is created when the blades of the skates grip the ice and propel the skater forward as they push off.
The force that causes an ice skater to begin moving is the forward force generated by pushing off the ice with their skates. This force propels the skater forward by creating a reaction force in the opposite direction.
RICE. Rest Ice Compress Elevate Take a couple days off of the ice to rest. Be sure to put ice on your tailbone. I don't know how you could wrap that, but if you can find a way, be sure to do it.
Mark Harmon was not a figure skater. He's been an actor the whole time. Before that he went to UCLA where he played quarterback. He was also a shoe salesman and a carpenter while waiting for his acting career to take off. The skater you're trying to think of is Mark Hamill.
She was just skidding around!I got the answer off of internet,just typed in the question!
dude what kind of question is that don't have any idea dude.
When ice skating, applying pressure on the ice with the blade of the skate helps create friction between the blade and the ice, allowing the skater to push off and glide smoothly. By adjusting the pressure applied to the skate, a skater can control their speed, direction, and stability on the ice. Changes in pressure also help to initiate turns and maneuvers while skating.
Friction can slow down the skater by opposing their motion and making it more difficult to glide smoothly. It can also create heat, which can eventually cause wear and tear on the skater's equipment. However, friction also provides the necessary grip between the skates and the ice, allowing the skater to push off and control their movements.
The skater can decrease his moment of inertia by bringing his limbs closer to his body, which decreases the distribution of mass. To increase his angular velocity, the skater can generate more angular momentum by pushing off the ice with greater force, allowing for a faster spin.
According to the census off ice the figure in 2011 is 3 million