This single layer is the precursor of the body centered cubic (BCC) unit cell. The lattice points are in the same general form as the simple cubic (SC) unit cell, with the exception that the atoms are ...

At room temperature it is body-centered cubic, between 912 and 1394 C if is face- centered cubic, and between 1394 and its melting point at 1538 C it returns to body-centered cubic. Low carbon steel ...

The electronic configuration of Molybdenum is: (Kr)(4d) 5 (5s) 1, and it has an atomic radius of 0.139 nm. At room temperature the metal has the body centered cubic crystal structure. The lattice ...

The electronic configuration for chromium is: (Ar)(3d) 5 (4s) 1, and it has an atomic radius of 0.130 nm. At room temperature Chromium has a bcc (body-centered-cubic) crystal structure with a basis of ...

Its melting point is 3410 C, and it boils at 5930 C. In the solid state Tungsten has a body-centered cubic crystal structure with a = 0.316 nm and a nearest neighbor distance of 0.2.73 nm. Tungsten ...

Its melting point is 28.7 C, and it boils at 690 C. The electronic configuration of Cesium is (Xe)(6s 1). Its atomic radius is 0.267 nm. At room temperature Cesium has a body-centered cubic crystal ...

Its atomic radius is 0.248 nm and the (+1) ionic radius is 0.148 nm. In the solid state Rubidium has a body-centered cubic crystal structure with a = 0.562 nm and a nearest neighbor distance of 0.478 ...

The electronic configuration of Lithium is (1s 2)(2s 1). Its atomic radius is 0.155nm, and its (+1) ionic radius is 0.60 nm. At room temperature Lithium has a body-centered cubic crystal structure ...

The electronic configuration of Sodium is (Ne)(3s 1). Its atomic radius is 0.190 nm and the (+1) ionic radius is 0.95 nm. In the solid state Sodium has a body-centered cubic crystal structure with a = ...