Question

Make a graphic of torsional energy of 2-metilbutane when it turns around the C2---C3

Make a graphic of torsional energy of 2-metilbutane when it turns around the C2---C3

Homework Answers

Answer #1

2-metilbutane:

    
These calculus was made useing Hyperchem 8.0 ®       ​with edit, set bond torsion and compute, single point by MM+ algoritm
Know the answer?
Your Answer:

Post as a guest

Your Name:

What's your source?

Earn Coins

Coins can be redeemed for fabulous gifts.

Not the answer you're looking for?
Ask your own homework help question
Similar Questions
Consider 2-methylbutane. Sighting along the C2-C3 bond: (a) Draw the Newman Projections of the most stable...
Consider 2-methylbutane. Sighting along the C2-C3 bond: (a) Draw the Newman Projections of the most stable conformation. (b) Draw the Newman Projection of the least stable conformation. (c) If CH3<->CH3 eclipsing interaction cost 11kJ/mol and a CH3<->CH3 gauche interaction cost 3.8kJ/mol make a quantitative plot of energy verse rotation about the C2-C3 bond.
I have four capacitors with capacitances C1, C2, C3, and C4 connected in series. To save...
I have four capacitors with capacitances C1, C2, C3, and C4 connected in series. To save space I replace them with a single capacitor that has the same equivalent capacitance C as the four capacitors together. Which of the following is true? A. C>C1 B. C<C2 C. C=C3 D. Not enough information to answer. 2. The role of a resistor in the circuit is to A. Convert kinetic energy of the electrons to thermal energy B. Convert thermal energy to...
Draw the most stable newman projection for 2-methylbutane looking through C2-C3.
Draw the most stable newman projection for 2-methylbutane looking through C2-C3.
1). Calculate the energy of the least stable conformation of propane rotating along C1-C2. 2). draw...
1). Calculate the energy of the least stable conformation of propane rotating along C1-C2. 2). draw the least stable conformation of hexane rotating along C3-C4.
A 0.670 m long solenoid is formed by wrapping 480 turns of wire around a hollow...
A 0.670 m long solenoid is formed by wrapping 480 turns of wire around a hollow cylinder with a radius of 0.200 m. At the instant when the magnetic field in the interior is 0.480 T, calculate the energy stored in the field.
A 0.690 m long solenoid is formed by wrapping 410 turns of wire around a hollow...
A 0.690 m long solenoid is formed by wrapping 410 turns of wire around a hollow cylinder with a radius of 0.250 m. At the instant when the magnetic field in the interior is 0.750 T, calculate the energy stored in the field.
Suppose that 4?/(7+?)=∑?=0∞????.4x/(7+x)=∑n=0∞cnxn. Find the first few coefficients. ?0=c0= ?1=c1= ?2=c2= ?3=c3= ?4=c4= Find the radius...
Suppose that 4?/(7+?)=∑?=0∞????.4x/(7+x)=∑n=0∞cnxn. Find the first few coefficients. ?0=c0= ?1=c1= ?2=c2= ?3=c3= ?4=c4= Find the radius of convergence ?R of the power series. ?=R=
3. Consider a neutron (mass 939.6 MeV/c2) with a kinetic energy of 2.0 MeV a) [2...
3. Consider a neutron (mass 939.6 MeV/c2) with a kinetic energy of 2.0 MeV a) [2 points] is this non-relativistic, relativistic, or ultra-relativistic? Explain. b) [2 points] Find the neutron’s momentum c) [2 points] What is the neutron’s wavelength?
An ice skater quickly extends his arms when he turns on himself. Will its kinetic energy...
An ice skater quickly extends his arms when he turns on himself. Will its kinetic energy be conserved? Will your mechanical energy be conserved? Will its angular momentum be conserved? (Disregard the friction in the time interval that two it takes to extend the arms.) If any of these magnitudes is not preserved tell whether it increases or decreases.
An ideal solenoid with l0 turns is 8 cm long and has a radius of 2...
An ideal solenoid with l0 turns is 8 cm long and has a radius of 2 cm. Calculate the amount of energy stored in its magnetic field when it carries a current of 2 A.