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The puck on the table represents a planet in that it moves in a circular path due to the force exerted by the table, similar to how a planet is held in orbit around the sun by gravitational forces. Just as the puck glides smoothly along the surface, a planet travels along its orbital path in space. Both require a balance of forces—friction for the puck and gravity for the planet—to maintain their motion.

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3mo ago

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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 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.


An air hockey puck bouncing off the sides of the table as an example of projectile motion?

In air hockey, when the puck hits the side of the table at an angle, it undergoes projectile motion as it bounces off the surface. The puck's velocity and direction change when it hits the side due to the perpendicular force exerted and the angle of impact. The puck follows a curved path as it rebounds, demonstrating the principles of projectile motion.


How does gravity influence the movements in air hockey?

Gravity keeps the puck near the table.


An air hockey puck bouncing off the sides of the table is an example of projectile motion?

False


What is the tension in the string of the hockey puck?

A hockey puck of mass m = 0.25 kg is tied to a string and is rotating horizontally in a circle of radius R = 1.0 m on top of a frictionless table. The string is passing through a hole in the center of the table with a mass of 1 kg hanging vertically downward below the table. If the 1 kg mass hanging below the table remains in equilibrium (at a fixed position) while the puck is rotating horizontally. Since the weight below the table remains in equilibrium, the tension in the rope must equal the weight suspended from it T = W = (1 kg) × (9.81 m/s2 ) = 9.81 N


What forces act on a frictionless air puck as it moves across a table at constant speed in a straight line?

In the absence of friction, the only force acting on the air puck would be the force that initially propelled it to move across the table. Once the puck is set in motion, no external forces are needed to keep it moving at a constant speed in a straight line according to Newton's first law of motion.


Is it true that An air hockey puck bouncing off the sides of the table is an example of projectile motion.?

No, air hockey puck bouncing off the sides of the table is not an example of projectile motion. Projectile motion involves an object being launched into the air and following a curved path due to gravity, while the puck in air hockey is typically sliding along a flat surface.


What are the features of an air hockey table?

A good air hockey table has a large smooth playing surface. It is surrounded by a rail that prevents the puck and mallet from leaving the table. Slots on both ends of the table serve as goals.


Is there friction on an air hockey table?

yes and no, It depends on what type of friction. it has no friction with the table, but it does have friction from the air being pushed from beneath. What slows the puck down the most is air resistance


The drawing sHow is a collision between two pucks on an air-hockey table Puck A has a mass of 0.026 kg and is moving along the x axis with a velocity of 5.5 ms It makes a collision with puck B whic?

yes it will


Do you dribble a puck?

No, you don't dribble a puck. You stickhandle with the puck.