Assuming that water has a density of exactly 1 g/cm3, find the mass of one cubic...

(a) Assuming that each cubic centimeter of water has a mass of exactly 1 g, find...

(a) Assuming that each cubic centimeter of water has a mass of exactly 1 g, find the mass of 6.47 cubic meter of water. (b) Suppose that it takes 12.0 hours to drain a container of 65.2 m3 of water. What is the "mass flow rate," of water from the container? college physics

1. A standard 1 kilogram weight is a cylinder 54.0 mm in height and 41.0 mm...

1. A standard 1 kilogram weight is a cylinder 54.0 mm in height and 41.0 mm in diameter. What is the density of the material? ______kg/m3 2. Two spheres are cut from a certain uniform rock. One has radius 4.70 cm. The mass of the other is eight times greater. Find its radius. ______ cm 3. A solid piece of lead has a mass of 29.22 g and a volume of 2.59 cm3. From these data, calculate the density of...

Consider a hypothetical metal that has a simple cubic structure, a density of 9.62 g/cm3, and...

Consider a hypothetical metal that has a simple cubic structure, a density of 9.62 g/cm3, and an atomic weight of 90.5 g/mol. If, at the melting temperature, one out of every 104 atom sites is a vacancy, determine the number of vacancies in one cubic meter of this material. Assume that the energy for the vacancy formation is 96,000 J/mol. Answer should be in units of vacancies/m^3

Copper crystallizes with a face-centered cubic lattice and has a density of 8.93 g/cm3. a.) Calculate...

Copper crystallizes with a face-centered cubic lattice and has a density of 8.93 g/cm3. a.) Calculate the mass of one unit cell of copper (in grams) b.) Calculate the volume of the copper unit cell (in cm3). c.) Calculate the edge length of the unit cell (in cm). d.) Calculate the radius of a copper atom (in pm).

A factory produces steel with a density of 8050 kilograms per cubic meter (kg/m3), which is...

A factory produces steel with a density of 8050 kilograms per cubic meter (kg/m3), which is shaped into spheres. Each sphere has a mass of 500.0 grams (g). What is the diameter of each sphere, in units of centimeters (cm)? Hints: the definition of density is an object’s mass divided by its volume (p = M/V), and the volume of a sphere is given by V = (4/3)πr3.

A 76.00-pound flask of mercury costs $158.50. The density of mercury is 13.534 g/cm3. a) Find...

A 76.00-pound flask of mercury costs $158.50. The density of mercury is 13.534 g/cm3. a) Find the price of one cubic inch of mercury by calculating the following intermediate values. Find the price of one cubic inch of mercury by calculating the following immediate value. A) What is the price of one pound of mercury? B)What is the price of one gram of mercury? C)What is the price of one cubic centimeter of mercury? D)What is the price of one...

A metal has a mass density ρ = 8.95 g/cm3 . Assuming the effective mass of...

A metal has a mass density ρ = 8.95 g/cm3 . Assuming the effective mass of electron in the metal m*=0.5m0. The electron rest mass m0 = 9.11×10-31 kg. The atomic mass is 63.5, Avogadro’s number is 6.022×1023 . The Boltzmann constant kB = 1.38×10-23 J/K = 8.62×10-5 eV/K. The reduced Planck constant ћ = 1.55×10-34 J·s. Calculate the following assuming the periodic boundary condition. (a) the concentration of the conduction electrons (assume that each Copper atom has one electron...

1. Rubidium metal has a body-centered cubic structure. The density of the metal is 1.532 g/cm3....

1. Rubidium metal has a body-centered cubic structure. The density of the metal is 1.532 g/cm3. Calculate the radius of the rubidium atom. Assume that rubidium atoms are spheres. Then note that each corner sphere of the unit cell touches the body-centered sphere. 2. Copper metal has a face-centered cubic structure. The density of the metal is 8.93 g/cm3. Calculate the radius of the copper atom. Assume that copper atoms are spheres. Then note that the spheres on any face...

One cubic meter (1.00 m3) of aluminum has a mass of 2.70  103 kg, and the same...

One cubic meter (1.00 m3) of aluminum has a mass of 2.70  103 kg, and the same volume of iron has a mass of 7.86  103 kg. Find the radius of a solid aluminum sphere that will balance a solid iron sphere of radius 2.02 cm on an equal-arm balance.

A chunk of aluminum has density of 2.7 g/cm3 and atomic mass of 26.98 g/mole; where...

A chunk of aluminum has density of 2.7 g/cm3 and atomic mass of 26.98 g/mole; where each atom in the chunk contributes one conduction electron. Calculate the following:- 1) the Fermi energy. 2) the Fermi temperature and 3) the degeneracy pressure.