F = M A
M = F/A = 161.5/1.9 = 85 kg
85 kg
60 kg (:
90kg
Newton's Second Law:F=ma (force = mass x acceleration) That means that acceleration and force are proportional. If you double the force, you get double the acceleration.
No. What brings rain down, gravity, is a force. Rain is simply water being pulled down by gravity in little drops from clouds in the sky.
it happens because the air pressure counteracts the gravitational pull of the water which allows the water to stay in the bucket centrifugal acceleration and gravitational acceleration are indistinguishable from each other despite the fact that they arise from different causes. Therefore if v2/r > Gm/r2 then the water will obey the centrifugal acceleration over the gravitational. sorry, but the guy talking about air pressure is incorrect. the force pushing the water up from centripital force is greater than that of gravity, therefore it will not fall out.
Gravity makes a ship float. Gravity pulls harder on the mass of water than the air inside the ship. In this way the water is pulled under the ship, instead of the ship being pulled under the water.
90kg
Assume you are talking about a boat and a water skier. Yes it will work. I have been towed by a 35 HP outboard. It depends on the skill of the skier to be able to get up quickly. It also depends on the skis and the drag they cause while being pulled from the water.
Freddy Krueger - water skier - was born on 1975-05-03.
In Washington State, a skier-down flag must be displayed when a skier is in the water.
F = m * a Pressure at depth = force (newtons) / area (square metres) But> Force = mass of water * acceleration due to gravity
skier
A second person in the boat. Known as a spotter.
A second person in the boat. Known as a spotter.
Character Fantasy - 2006 Andy Water Skier was released on: USA: 8 July 2010
red or orange in California
It is called the tide, pulled by the moon's gravitational force on the earth.
Newton's Second Law:F=ma (force = mass x acceleration) That means that acceleration and force are proportional. If you double the force, you get double the acceleration.