since force is mass and acceleration the force needed to knock over a Bowling depends on the mass of bowling and it acceleration.
You twice it.
To get the Earth to move (quake), much force is needed. Pressure is force per unit area.
That really depends on the toaster. Try it out, with your own toaster.
A baseball player can throw a baseball 90 m.p.h. What if you asked him to throw a bowling ball? It doesn't go nearly as fast or as far. The acceleration is much less, not because the baseball player is suddenly applying less force, but because the object he is applying the force to has much greater mass.
No force is needed to keep an object moving. An object with no forces on it keeps moving at a constant speed in a straight line. If there is any force acting on it to make it slow down, then you need just enough force to cancel the first one, in order to keep it moving.
the amount needed is the amount that's taken by the bear
(25) times (desired rate of acceleration) Newtons.
F = (M) x (a) = (25) x (2) = 50 newtons.
if one can sneez without closing eyes he will found his balls in front of him`[i mean eye balls]
The price of bowling will vary depending on the center, day, time and if bowling shoes are needed for renting.
how much force is needed to hold the 2kg object
Well according to the equation Force = Mass x Acceleration. A bowling ball has more mass than a feather but it all depends on how much acceleration each is undergoing. Potentially a feather can have more force (if the bowling ball has an acceleration of zero, then there is no force being produced, and if the feather is accelerating at any speed greater than zero, thentechnicallyit has more force)
Ketamine is a horse tranquilizer. It would take about 150mg of ketamine in order to knock out a shire horse.
41.1j
That's because a tsunami contains thousands of more gallons than a regular wave. Example: In a bowling lane, a bowling ball (tsunami) is heavier and it can easily knock down pins. It's fast and heavy. If you tried to knock over the pins with a bouncy ball (regular wave), not much pins would be knocked over.. Though this explains why a tsunami can do so much damage, it does not explain how it moves faster. in a bowling alley both a bowling ball and a bouncy ball would move at the same speed.
Well you are going to need some kind of force depending on how small the trees are.
About 20kg of force.