Lennard–Jones potential diagrams, also called intermolecular potential energy diagrams, illustrate the relationship between the potential energy...

Lennard–Jones potential diagrams, also called intermolecular potential energy diagrams, illustrate the relationship between the potential energy of a molecule as the distance between the two nuclei changes. Select all of the true statements regarding Lennard–Jones potential diagrams from the list below. Once the attractive forces are greater than the repulsive forces, the outer orbitals are able to overlap, thereby allowing a bond to form. Once a balance is found between the attractive and repulsive forces, the outer orbitals are able to overlap, thereby allowing a bond to form. As the internuclear distance decreases, the attraction between the nuclei increases significantly, causing a steep increase in the potential energy of the system. When the nuclei are infinitely far apart, the attractive forces between the nuclei are much greater than the repulsive forces between them, causing the potential energy to approach zero. As the internuclear distance decreases, the nuclear and electrostatic repulsions increase significantly, causing a steep increase in potential energy. When the nuclei are infinitely far apart, there is no repulsion or attraction between them; thus, the potential energy approaches zero PLEASE ANSWER QUESTION PICK THE ONES THAT APPLY

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queen_honey_blossom answered 2 years ago

The Lennard-Jones potential energy, U(x), is a function of "x" the distance between a pair of...

The Lennard-Jones potential energy, U(x), is a function of "x" the distance between a pair of molecules. It is frequently called the van der Walls potential between molecules for dipole-dipole interactions. The potential is U(x) = C12/ x^12 - C6/x^6 [1] Here we assume for water molecules: C12 = 9.5 x 104" J•m12 C6 = 1 x 10-76 J•m6. (a) What is the separation distance (Xs) between two water molecules where the applied force (F) to pull the molecules apart...

The Lennard-Jones potential energy, U(x), is a function of “x” the separation distance between a pair...

The Lennard-Jones potential energy, U(x), is a function of “x” the separation distance between a pair of atoms in a molecule. It is frequently called the van der Walls potential between atoms for dipole-dipole interactions. The potential is U(x) = C12/ x12 - C6/x6, [1] Where C12 = 1.51 x 10-134 J∙m12 C6 = 1.01 x 10-77 J∙m6. (a) Determine the shape of the potential energy curve vs. distance of separation (x) between the atoms using Equation [1] by plotting...

2. The Lennard-Jones potential is a popular interatomic potential energy surface (PES) for diatomic molecules given...

2. The Lennard-Jones potential is a popular interatomic potential energy surface (PES) for diatomic molecules given by the following formula VLJ(R)=4ε[(σ/R)^12 - (σ/R)^6] with R the distance between the two nuclei in the molecule, and σ and ε molecule-dependent parameters. (c) Consider the diatomic molecule O2, for which the Lennard-Jones parameters are given by ε = 5.164eV and σ = 1.075 ̊A. The atomic mass of oxygen is m(O) =15.999. Find a value for the force constant k and the...

A common approximation to the interatomic forces in a material is the Lennard-Jones potential between neighboring...

A common approximation to the interatomic forces in a material is the Lennard-Jones potential between neighboring atoms in a solid: U(r) = A/r12 - B/r6 This can be used to find various information about a solid material. Assume that for the lattice of a particular alloy of copper, the Lennard-Jones constants are: A = 9.08 ⨯ 10-133 J·m12 B = 3.96 ⨯ 10-76 J·m6 Find the following: (a) The equilibrium distance between neighboring atoms in the copper lattice (this is...

What is the relationship between intermolecular forces and kinetic energy? Directly related or inversely related? (ie....

What is the relationship between intermolecular forces and kinetic energy? Directly related or inversely related? (ie. as kinetic energy increases, do intermolecular forces increase or decrease?)

1-what is the relationship between electric force, field, potential energy, and potential? what patterns are there...

1-what is the relationship between electric force, field, potential energy, and potential? what patterns are there in the relationships between each? 2-Say you have an electric field created by a distribution of charges. you can place a test charge in this field. which of the following will depend on the sign of the charge : force, field, potential energy or potential, and why?

3Objectives•To determine the relationship between kinetic, potential, and total mechanical energy for a cart on an...

3Objectives•To determine the relationship between kinetic, potential, and total mechanical energy for a cart on an incline.•To determine the work done by friction on a sliding cart.•To show that energy is not conserved when a non-conservative force, like friction, is acting.Procedure: Energy of a cart withoutf riction In this experiment, we will assume that friction is negligible, and that there are no non-conservative forces at work.The motion of a cart rolling down an incline will be examined using real-time velocity...

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Type or paste question here 3Objectives•To determine the relationship between kinetic, potential, and total mechanical energy...

Type or paste question here 3Objectives•To determine the relationship between kinetic, potential, and total mechanical energy for a cart on an incline.•To determine the work done by friction on a sliding cart.•To show that energy is not conserved when a non-conservative force, like friction, is acting.Procedure: Energy of a cart without friction In this experiment, we will assume that friction is negligible, and that there are no non-conservative forces at work.The motion of a cart rolling down an incline will...

What is the relationship between capillary action and intermolecular forces? Show all work.

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