Energetics Jeopardy Template

Measuring Energy Changes

Hesssssss Law

Bond Enthalpies

Energy Cycles

Entropy and Spontaneity

100

Heat travels from a hotter to a colder medium (True or False)

True

100

∆H₃ = ∆H₂+ ∆H₁, ∆H₁ = ?

∆H₃-∆H₂

100

bond enthalpy

energy required to break one mole of chemical bonds in the gaseous state.

100

Born-Haber cycle

Born–Haber cycle is an energy cycle that can be used to calculate the lattice enthalpy of an ionic compound.

100

Entropy

Distribution of available energy among particles in a system

200

A system's temperature lowers (exo or endo)

exothermic

200

What is Carbon's enthalpy of formation in graphite?

0 zero null J

200

Bond making is...

Exothermic

200

1/2 Cl2(g)--->Cl(g)

Enthalpy of Atomization

200

Explain

Gibbs free energy being negative means an energy is spontaneous

300

The sign of ΔH in an exothermic reaction

negative

300

Hess' Law

Hess’s law states that the total enthalpy change in a chemical reaction is independent of the route by which the chemical reaction takes place, as long as the initial and final conditions are the same.

300

More energy in bond forming than breaking means

energy is released

300

Hydration Energy

1 mole of gaseous ions dissolves in sufficient water to give an infinitely dilute solution

300

Physical State with highest entropy value

Gas

400

Calorimetry is used to measure what and how does it work?

Measures enthalpy change, sufficient explanation

400

Enthalpy change of combustion

The enthalpy change when one mole of a substance is completely combusted in oxygen under standard conditions (298 K and 100 kPa)

400

The energy required of Oxygen gas O₂ to break is more or less than the energy required to break Ozone O₃

More, as there is a strong covalent bond present.

400

The size of a lattice enthalpy depends on

Size of the ions and charge carried

400

If ∆H is positive, ∆S is negative, is the reaction spontaneous or not?

not