Newton's 2nd law of motion: F = M A
Force = (0.015 kg) x (12 m/s2) = 0.18 kg-m/s2 = 0.18 newton
The information given is sufficient only to determine the areas of the top and bottom of the puck. The area of the curved side depends on the width (or height) of the puck, which is not specified.
We will have to multiply the mass by the speed of the object, which in this case, is the puck. Hockey pucks weigh 900G (2Lbs) 97.94 mp/h is 43.7831 Now if we calculate the said values, 900 x 43,78 (Note, the final result will be in grams) 98700 G= 98.7 KG = 216.053 pounds of force!
Clearing
A standard ice hockey puck is black, 1 inch thick (25.4 mm), 3 inches in diameter (76.2 mm), and weighs between 5.5 and 6 ounces (156-170 g)
F = ma. The math could not be more straightforward. You have F and you have a, so just solve for m.
Numbers are important.F = ma. So multiply the acceleration in meters per second (per second, which you appear to have left out) by the mass in kilograms and that will give you the force in newtons.
If a puck is placed on the ice so that it isn't moving it will stay where it is placed. That's inertia.If a player whacks the puck straight for the net and no other player gets in the way then the puck will go into the net. The only thing that could slow the puck would be the tiny friction between the ice and the puck but that doesn't amount to much. The air turbulence around a puck must have a slight effect too. But the overall straight line trajectory of the puck is inertia too.In ordinary life, things 'at rest stay at rest' and things that are moving move in straight lines unless additional forces act on those things.
Once contact with the object that provided the force to initiate the motion, i.e. your hand or the hockey stick, there is no force tending to keep it in motion. The inertia of the puck in motion will resist any change in that motion, but inertia is a physical property not a force. From a free body diagram the only apparent force acting on the puck would be air resistance tending to slow it down.
that depends on the force exerted by the stick on the puck. they are directly related, in other words F(puck to stick)=F(stick to puck)
It accelerates
what a stupid question!!
a puck
A hockey puck
THE PUCK, you play hockey to get the puck.
It accelerates
It accelerates
Force applies to ice hockey because the ice hockey player must propel himself forward when he goes for the puck. When someone propels themselves forward, this is force.