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How is sliding friction shown in field hockey?
Sliding friction in field hockey is demonstrated when the player's feet slide on the ground as they change direction or come to a sudden stop. This friction helps players control their movements on the field by providing resistance against the sliding motion. The type of shoes worn by field hockey players, with studs or cleats, also play a role in enhancing sliding friction for better traction on the field.
Where does air hockey have air resistance?
yes, it just has less friction across the table from the air pushing up on the puck through the holes.
A sentence for friction?
If it weren't for friction, the hockey puck would have slid forever on the huge frozen pond.
What hockey puck sliding across the ice had what energy?
The hockey puck has kinetic energy as it slides across the ice. This energy is due to the puck's motion and is directly related to its mass and speed.
Can A hockey puck that slides across the ice at a constant speed be in equilibrium?
Yes, a hockey puck sliding across the ice at a constant speed can be considered to be in dynamic equilibrium. While the puck is moving, the forces acting on it are balanced, resulting in no acceleration in its velocity.
What is an example of sliding friction'?
one is a hockey puck sliding down the ice
How is sliding friction shown in field hockey?
Sliding friction in field hockey is demonstrated when the player's feet slide on the ground as they change direction or come to a sudden stop. This friction helps players control their movements on the field by providing resistance against the sliding motion. The type of shoes worn by field hockey players, with studs or cleats, also play a role in enhancing sliding friction for better traction on the field.
What kind of energy does a hockey puck sliding across ice have?
kinetic
Where does air hockey have air resistance?
yes, it just has less friction across the table from the air pushing up on the puck through the holes.
Why is hockey used in physics in school?
Hockey is a good example of many simple phenomena in physics: a puck sliding across ice or, manifested in field hockey, a ball across turf (friction and momentum). Hockey can be played in variants, on ice, on hard surface (floor hockey) and turf (field), as demonstrated by the puck/ball being hit (friction, force, acceleration, rotational torque, impulse), players being hit (also momentum, tensile stress, thermodynamics), the ball falling along a parabolic path (projectile motion), etc. The surface the game is played on lies the beauty of physics: ice requires a Zamboni machine (kinematics and low temperature physics).
What is similar between air hockey and the dry ice pellet skidding across the table?
Both air hockey and the dry ice pellet skidding across a table rely on a low-friction surface for smooth movement. In air hockey, a cushion of air reduces friction between the puck and the table, allowing for fast and agile play. Similarly, dry ice sublimates into gas, creating a thin layer of gas that enables the pellet to glide effortlessly across the surface. Both phenomena showcase the effects of reduced friction on motion, enhancing speed and responsiveness.
What kind of energy does a hockey puck sliding across the ice have?
kinetic energy
A sentence for friction?
If it weren't for friction, the hockey puck would have slid forever on the huge frozen pond.
What hockey puck sliding across the ice had what energy?
The hockey puck has kinetic energy as it slides across the ice. This energy is due to the puck's motion and is directly related to its mass and speed.
What is the website for science in hockey?
In 2001, the "Physics of Hockey: Sliding Friction and Momentum on Ice" was born. It is the top site for information. Now it is simply called Hockey Physics 2.0. Go there: http://www.hockeyphysics.com
Can A hockey puck that slides across the ice at a constant speed be in equilibrium?
Yes, a hockey puck sliding across the ice at a constant speed can be considered to be in dynamic equilibrium. While the puck is moving, the forces acting on it are balanced, resulting in no acceleration in its velocity.
If a hockey puck is set in motion across a frozen pond if ice friction plus air resistance are neglected the force required to keep the puck sliding at a constant velocity is?
If you have eliminated all resistance then the initial force will be enough.
