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How fast will a puck slide off a table if the table is 5 ft tall and the puck slides at 2ms?
Neglecting friction, if a puck is sliding at 2 m/s it will still be sliding at 2 m/s when it slides off the table. Immediately before hitting the floor, its velocity in the x-direction will still be 2 m/s but it will have accelerated to a y-velocity of approximately 6.4 m/s, yielding a total speed of 6.6 m/s.
What else can I help you with?
A hockey puck slides across an ice rink more easily than it does across a rough concrete surface. Why is this?
The smooth surface of the ice rink offers less resistance to the puck compared to the rough concrete surface. The reduced friction allows the puck to slide more easily and travel further on the ice rink. On the other hand, the uneven texture of the concrete surface creates more friction, making it harder for the puck to slide smoothly.
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.
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.
What are the forces on a hockey puck as it slides away on ice?
The forces acting on a hockey puck as it slides on ice are gravity pulling it downward, normal force pushing it upward, frictional force opposing its motion, and possibly air resistance. These forces work together to determine the puck's speed and direction of motion.
What forces act on a frictionless air puck as it moves across a table in a straight line?
The main force acting on a frictionless air puck moving in a straight line across a table is inertia, which keeps the puck in motion. Additionally, there may be forces like gravity and normal force acting on the puck, but these forces do not affect its horizontal motion since the table is assumed to be horizontal.
A hockey puck slides across an ice rink more easily than it does across a rough concrete surface. Why is this?
The smooth surface of the ice rink offers less resistance to the puck compared to the rough concrete surface. The reduced friction allows the puck to slide more easily and travel further on the ice rink. On the other hand, the uneven texture of the concrete surface creates more friction, making it harder for the puck to slide smoothly.
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.
Does a frozen hockey puck slide further on ice?
Yes a cold dry puck will slide much better than a wet puck. If your puck is held in your hand and becomes warm, the puck will stick...
What are long board sliding pucks used for?
long board sliding pucks are used for doing certain slides (ex:coleman) in which you need to use your hands for. the puck are designed to slide across cement easily. in a nutshell, they protect your hands
How fast a slap shotted hockey puck moves?
On average a slapshotted hockey puck travels 125 MPH
Puck get stuck in goalie pads and goalie slides over goal line?
well it's the same thing if the puck was in a goalie's glove and his glove went over the line. It's a goal.
Why do they freeze the puck before a hockey game?
They freeze the pucks so that it can slide better.
Why is ice hockey on ice?
so that the hockey puck can slide once been hit.
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.
What are the forces on a hockey puck as it slides away on ice?
The forces acting on a hockey puck as it slides on ice are gravity pulling it downward, normal force pushing it upward, frictional force opposing its motion, and possibly air resistance. These forces work together to determine the puck's speed and direction of motion.
What forces act on a frictionless air puck as it moves across a table in a straight line?
The main force acting on a frictionless air puck moving in a straight line across a table is inertia, which keeps the puck in motion. Additionally, there may be forces like gravity and normal force acting on the puck, but these forces do not affect its horizontal motion since the table is assumed to be horizontal.
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.
