3700
In this case the specific heat capacity for Mercury is easily obtained from reference sources. It is equal to 27.983 J·mol−1·K−1
Assuming the question refers to the capacity of the box or volume of material that will fit in, you need to measure the volume of the box. If the box is a cuboid (all faces are square or oblong) then measure its length (L), width (W) and height (H). Then capacity = L*W*H If the box is circular, measure its diameter (D), which is where it is widest, and height (H). Then capacity = Pi*D*D/4 where Pi = 3.14159
J=(100)(specific heat)(change in temp. 60 degree celsius) 1200 calories to joules equals 5099.6J specific heat equals .849 not sure what the units are tho. hope this helps ----------------------------Improvement: Q = mcdT (c: specific heat capacity) Q = CdT (C: heat capacity) Note that heat capacity already factors in the object's mass 1220 calories = 5104.48 J C = Q/dT C = 5104.48 J / 60 K C = 85.07 J/K
There are 7 variances associated with a budget ( which are generally calculated for controlling purposes) 1- Material Price variance 2- Material Quantity variance 3- Labor rate variance 4- Labor efficiency variance 5- Spending variance 6- Efficiency variance 7- Capacity variance
resource allocation in both human and material. Allocate adequate budget to areas with more needs tha the other CAPACITY BUILDING SKILLS DEVELOPMENT AS PER FINDINGS
It all depends on what material is contained. At normal temperature and pressure, 85 litres of air would have a mass of about 0.1 kg. Water would be 85 kg while mercury would be 1.1 tons.
active transport
Volume (or capacity) describes this.
Gaseous exchange happens through diffusion.
The heat capacity depends on the mass of a material and is expressed in j/K.The specific heat capacity not depends on the mass of a material and is expressed in j/mol.K.
crossing over
sexual
in mammals, what structure ensures the exchange substances between the embryonic and material blood circulation
In general and easy terms, Struck Capacity is the capacity of material present in a bucket of any Excavating Equipment.
tonnage capacity is equal to area x shear strength of material. calculate area by multipying length and thickness of material.
tonnage capacity is equal to area x shear strength of material. calculate area by multipying length and thickness of material.
If there is no information about the capacity on a press, you will need to manually figure out the mechanical power press capacity. This can be calculated by multiplying the area of sheer by the shear strength of material. You must also take into consideration the strength of the material.
by a asexuall reproduction