Assuming you need a metric ton, that's 1000 kilograms. To lift that, you need a FORCE of 9800 newtons. Force is related to pressure by: pressure = force / area, so the answer to the original question would depend, over what area the force is applied.
This is a kind of trick question. In a closed static system containing fluid, pressure is equal everywhere. This is called the Law of Pascal. One can use this principle to lift a car with a finger. Fill a tank with water and have a car float on a platform. Now make a hole in the tank and connect a tube to it. By preventing the tube to leak, you have to apply a certain pressure, which may be smaller than 1 bar. If you increase the pressure, either by hand or possibly by blowing the tube, you can lift the car. Not so much with a short tube, but more with a long tube. The higher pressure in the tube will push the water back in the tank and cause the water in the tank to rise with the car on top of it.
How much is one what - more information required
12L
carnage can lift 50tons and 2tons is the strength of a car so just imagin how many cars carnage could lift in one hand carnage can lift 50tones and venom can lift 80tons so imagin how many cars venom and carnage could lift in one hand
it required too much time to prepare new craft
Depending on the quality of bp you are using the general rule of thumb is one tenth the shells weight for a lift charge.
Any air pressure is sufficient, if you have enough area with that pressure applied. Foe example, you could lift a 10000 pound truck with 10000 psi, if you have one square inch being acted on; you could do it with 1 psi, if you had 69.5 square feet being acted on.
A hydraulic lift works by having pressure travel through a tube into another. One tube is smaller forcing air into the larger one in order to push and raise the lift.
80 lbs until past 45 degrees
no one knows. He is too afraid to lift in front of anyone
This is a kind of trick question. In a closed static system containing fluid, pressure is equal everywhere. This is called the Law of Pascal. One can use this principle to lift a car with a finger. Fill a tank with water and have a car float on a platform. Now make a hole in the tank and connect a tube to it. By preventing the tube to leak, you have to apply a certain pressure, which may be smaller than 1 bar. If you increase the pressure, either by hand or possibly by blowing the tube, you can lift the car. Not so much with a short tube, but more with a long tube. The higher pressure in the tube will push the water back in the tank and cause the water in the tank to rise with the car on top of it.
The choices are:A. Doubles the force required to lift the blockB. Decreases the force required to lift the blockC. Makes the block easier to lift by changing the direction of the force needed to lift it.D. Decreases the force required and changes the direction of the force required
To give you an idea: * A work of one joule is required to lift a mass of 102 grammes (a small book) one meter. * A 40-watt light-bulb uses 40 joules every second.To give you an idea: * A work of one joule is required to lift a mass of 102 grammes (a small book) one meter. * A 40-watt light-bulb uses 40 joules every second.To give you an idea: * A work of one joule is required to lift a mass of 102 grammes (a small book) one meter. * A 40-watt light-bulb uses 40 joules every second.To give you an idea: * A work of one joule is required to lift a mass of 102 grammes (a small book) one meter. * A 40-watt light-bulb uses 40 joules every second.
Generally enthalpy is analgous to the energy of a material at a particular temperature and pressure. It is calculated to determine the energy a material holds, or more often, enthalpy differences are calculated to determine how much energy is required to bring a material from one temperature and pressure to another temperature and pressure.
OSHA does not have guidelines on how much weight one person can lift. However the lifting guidelines from NIOSH suggest a maximum of about 40 pounds.
Answer: About an 80% probability that one or the other of the lifts have failed. Most lifts use a nitrogen-charged system that uses pressure to help lift the door, and are balanced to the weight of the door. Replacement of one or both of these struts are required in order to return the door to proper operation.
In order to lift a 270 kg, which is about 596 pounds rock one foot off the ground you will need a forklift or other weight lifting machinery. A normal person will not be able to lift a rock that heavy on their own.