Mastery – Metal Crystals: Radius, Edge Length, Volume (Determine Metallic Radius)
OWLv2 for General Chemistry
Cengage
01st Edition
The type of cubic lattice and edge length (pm) are given. Determine the metallic radius in pm.
The type of cubic lattice and edge length (pm) are given. Determine the metallic radius in pm.
The type of cubic lattice and metallic radius (pm) are given. Determine the volume in pm3 and cm3.
A compound is given. Determine which answers are true. Low or high melting point? Strong electrolyte or non-electrolyte? Ionic or molecular? Good conductor? Solid at room temperature?
Choose all that apply. A liquid’s vapor pressure (in mmHg)at a temperature (K) is given. The compound is placed in a container (mL) and put at a certain pressure (mmHg). If the container is reduced to a new mL, what happens?
Multiple part question asking for 2 or 3 of the following: ideal pressure in mmHg, pressure at equilibrium in mmHg and/or will all liquid evaporate? Vapor pressure (mmHg), temperature (K), grams and volume (mL) are given.
Two pressures and two temperatures (in K) are given. Determine the molar heat of vaporization.
The normal boiling point (K) and molar heat of vaporization are given for a liquid. Determine the new boiling point at a new pressure (atm).
The boiling point, specific heat liquid and ΔHvap are given. Determine how many kJ of heat (ΔH) are needed to vaporize or condense x grams at 1 atm of pressure. This solver works for both questions asking for vaporizing the sample and questions asking to condense the sample.
The crystal structure is given as well as the edge length (in pm). Determine the density in g/cm3.
Two temperatures (in K) and two pressures are given. Determine the enthalpy of vaporization (ΔHvap).