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What else can I help you with?
How much force N is needed to knock over a bowling pin?
It typically takes about 110-130 Newtons of force to knock over a standard 15-inch-tall bowling pin. This force can vary depending on factors such as the weight of the bowling ball and the angle at which it strikes the pin.
How much ketamine is needed to knock out a shire horse?
Ketamine is a horse tranquilizer. It would take about 150mg of ketamine in order to knock out a shire horse.
How much force does it take to knock down 6 small trees?
Well you are going to need some kind of force depending on how small the trees are.
How much force should you use to remove a spark plug?
as much as needed
Could a black bear knock down a 200 pound tree?
yes they could and much more than 200 pounds I assure you
Which would win a fight a polar bear or an elephant?
The elephant would win. It has much larger muscles and thick skin to protect itself from the polar bear's claws and teeth. It also has a huge, powerful trunk that it can knock the polar bear out with or slam the polar bear to death.
How much force is needed to fracture a metacarpal?
3 lbs
What does a force meter measure?
it measures how much force is needed to to move it
How much force is needed to lift a weight fo 200n?
The force needed to lift a weight of 200N would be 200N. This is because the force needed to lift an object against gravity is equal to the weight of the object itself.
How much down force is needed to lift a helicopter?
The same force as the weight of the helicopter and its crew and cargo.
What can be compared to sandblasting?
The force of water coming out of a fire hose can be compared to sandblasting. The force of the water is enough to knock a burly man down. The force of sandblasting is about the same and would hurt just as much.
How much force is needed to hold the 2 kg object?
The force needed to hold a 2 kg object would be equal to the force of gravity acting on the object at that particular location. This force is typically calculated using the formula: Force = mass x acceleration due to gravity, which is approximately 9.81 m/s^2 on the surface of Earth.
