Assuming you mean coolant (not water), you probably have a bad head gasket or a cracked head.
The cylinder should be evacuated
Jacket
The water jacket is on the out side of the cylinder and in side the out side casing. If you are wanting to know what is in the water it is anti freeze.
A cylinder filled with water has properties such as volume, surface area, and weight. The volume of water in the cylinder is determined by its height and radius. The surface area of the cylinder is the total area of its curved surface and two circular bases. The weight of the water in the cylinder is influenced by its volume and density.
With an indirect water heating system and cylinder, the water that circulates around the boiler, pipes and radiators is kept totally separate from the stored water in the cylinder that is used for bathing. From the outside the indirect cylinder looks identical to the direct cylinder save from two additional pipe connections on the side of the cylinder. Inside the cylinder a coil heat exchanger is installed, which allows hot water from the boiler to flow into the upper connection and leave at the lower connection to return to the boiler for re-heating. The hot water in the coil indirectly heats the water in the cylinder. A Direct Cylinder is heated by a source located within the cylinder - such as an electrical immersion heater. Because the Immersion Heater is heating the water 'directly' the cylinder is called a 'Direct Cylinder'. In a direct cylinder there are no other external heat sources.
The pressure inside an inverted hollow cylinder in water is equal to the pressure at the depth of the cylinder's centroid multiplied by the specific weight of water. To calculate it, use the formula: pressure = (specific weight of water) * (depth of centroid of cylinder).
This cylinder can hold up to 66.1 gallons of water.
This cylinder will hold up to 3,760.11 gallons of water.
A graduated cylinder is used to measure the volume, or capacity of water. Or to just measure Water.
no but u can get them done
You can use the graduated cylinder to represent a body of water. Start by filling the cylinder with water and placing a stopper on top to simulate a sealed environment. Warm the water to simulate evaporation, then watch as droplets collect on the walls of the cylinder to represent condensation. Finally, remove the stopper to allow the water droplets to fall back into the cylinder, mimicking precipitation in the water cycle.
73 + 25 = 98 means that there is 2 ml of space in the cylinder before there is a risk of the liquid overflowing.