Want this question answered?
To calculate the refrigerant charge in a car, you must check its AC service valves under the hood in a car that is turned off using manifold gauges. Attach its red hose to the high-pressure gauge and the blue hose to the low-pressure gauge. Open the pressure valve on both sides. The normal low should be 25 to 45 psi. The normal high should be 225 to 250 psi.
no of cylinders = 6 bore = 85 mm =8.5cmstroke = 90mm =9 cmbore area = bore * bore * pi/ 4 (pi=3.14159)volume of 1 cylinder = bore area * strokeengine capacity = volume of 1 cylinder * no of cylindersbore area = 8.5 * 8.5 * 3.14159/ 4=56.745 square cmvolume of 1 cylinder= bore area * storke=56.745*9=510.7 cubic cm (cc)engine capacity =volume of 1 cylinder * no of cylinders=510.7 * 6=3064.22 cc
This term is an equivalent of capacity; expressed for example in cubic meters of gas to second.
concrete and cementtarmacsmooth roadgood roadsfriction
1:6 brick work sand consumption for 1 cubic meter = 9.71 cft 1 cubic meter brick work cement consumption = 1.32 bags 1.32/28.8= .0458 cubic meter .458*6 = .275 .275*35.31 =9.71 cft
Essentially, excavator productivity is typically measured by the volume of loose or rock soils the machine can displace in a hour of continuous operation. Understand the formula for calculating excavator productivity. The formula is as follows: Q = (60*q*z*n*kf) / kl, where Q is the productivity of the excavator, q is the capacity of each rotor bucket in cubic feet, z is the number of buckets on the wheel and n is the speed of rotation of the rotor, measured in revolutions per minute. kf stands for the filling factor of a bucket while kl represents the soil-loosening factor. Gather the data. Typically, you can get the date for the capacity of each rotor bucket in cubic feet, the number of buckets on the wheel and the speed of rotation of the rotor from the operator's manual of your excavator, supplied by its manufacturer. The filling factor of the bucket and the soil-loosening factor can be determined experimentally. The filling factor, ranging from 0 to 1, determines the degree of the excavator bucket's utilization. For example, whether it is half-full or three-quarters-full determines the excavator bucket's utilization. To determine the soil loosening factor, which is always greater than 1, calculate by how much the density of the soil in the ground is greater than the density of the excavated soil. For example, if the soil loosens by 10 percent, the soil-loosening factor is 1.1. Use the formula from Step 1 to calculate excavator productivity. For instance, if the capacity of each rotor bucket is 10 cubic feet, the wheel has only one bucket, the rotor rotates at a speed of 5 rotations per minute, and the filling factor and the soil loosening factor are one, the productivity of the excavator stands at: Q = (60*q*z*n*kf) / kl = (60*10*1*5*1) / 1 = 3,000 cubic feet per hour. kf stands for the filling factor of a bucket while kl represents the soil-loosening factor.
7.34 cu yds.
That is not possible. A triangle is an area. Cubic meters belong to volume or capacity.
A 5-gallon bucket filled with water contains 0.668 cubic feet of water.
Capacity or volume of a cone = 1/3*pi*radius2*height measured in cubic units
You need to include the third dimension to calculate the cubic capacity of a room
Take the three dimensions. Length, width and depth. Multiply them together L x W x D This will give you the cubic capacity in the units uses. ie cubic feet, meters etc.
You have to eat some hot-cheetos then poop them out and eat them again.
To calculate capacity, you need the length, height, and width of your tank
4 Cubic Yard Front-End Loader, 8 Cubic Yard Dump Truck, Hydraulic Excavator
The cubic capacity is 92 litres!
There are 0.668 cubic feet in a 5 gallon bucket and 7.352 cubic feet in a 55 gallon drum.