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To measure a force, depends on how the force is applied. For example if it is a piston rod actuated by a piston, you can measure the pressure inside the cylinder containing the piston, this may be filled with gas or liquid, and calculate the force from the area of the piston/cylinder. If it is a lever system, work out the mechanical advantage of the levers and multiply by the actuating force, probably obtained as above. You can also measure force directly using a strain gauge between the applying force and the object.
First you need to know what force is required. The pressure the cylinder is going to work at. From this you can wok out the area of the piston and then the diameter of the piston. Force = Pressure x Area
The easiest way is to place the graduated cylinder on a scale or balance and measure the weight. You would then calculate from the weight (a force measured in kg, usually) to determine the mass.
You cannot calculate force with only speed.
It depends on what else you know. If you know the mass and can measure the acceleration, you can use that to calculate force, but there are other ways to calculate force.
To measure a force, depends on how the force is applied. For example if it is a piston rod actuated by a piston, you can measure the pressure inside the cylinder containing the piston, this may be filled with gas or liquid, and calculate the force from the area of the piston/cylinder. If it is a lever system, work out the mechanical advantage of the levers and multiply by the actuating force, probably obtained as above. You can also measure force directly using a strain gauge between the applying force and the object.
It transfers force from the expanding gas in the cylinder to the crankshaft via a piston rod.
First you need to know what force is required. The pressure the cylinder is going to work at. From this you can wok out the area of the piston and then the diameter of the piston. Force = Pressure x Area
The equation Force = pressure x surface of the cylinder Electric power and torque and power you need to know what you want. After obtaining the surface area of ​​the circle diameter cylinder, the cylinder can get.
"Force the substance into a smaller volume" is pretty much the definition of "compress".
You can fill a cylinder with gas.
Using information about a force to calculate the resulting acceleration..Using the change in the volume of a gas to calculate the change in its pressure.
gas pressure has to get round the back of the ring to force it against the cylinder wall
The easiest way is to place the graduated cylinder on a scale or balance and measure the weight. You would then calculate from the weight (a force measured in kg, usually) to determine the mass.
Mass and volume are needed to calculate the density of a graduated cylinder.
The gas in the liquified state under pressure and it can be filled inside the cylinder. Then it takes the entire available place in side the cylinder. This way gas filled in side the cylinder.
50.0 grams of what gas? This is the ideal gas law. Pressure * Volume = moles gas * the R constant * temperature in Kelvin PV = nRT