Busy. Please wait.
or
show password
Forgot Password?
Don't have an account?  Sign up 
or
Username is available taken
show password

why


Make sure to remember your password. If you forget it there is no way for StudyStack to send you a reset link. You would need to create a new account. We do not share your email address with others. It is only used to allow you to reset your password. For details read our Privacy Policy and Terms of Service.

Already a StudyStack user? Log In

Reset Password
Enter the associated with your account, and we'll email you a link to reset your password.

Remove Ads
Don't know
Know
remaining cards
Save
0:01
To flip the current card, click it or press the Spacebar key.  To move the current card to one of the three colored boxes, click on the box.  You may also press the UP ARROW key to move the card to the "Know" box, the DOWN ARROW key to move the card to the "Don't know" box, or the RIGHT ARROW key to move the card to the Remaining box.  You may also click on the card displayed in any of the three boxes to bring that card back to the center.

Pass complete!

"Know" box contains:
Time elapsed:
Retries:
restart all cards




share
<embed>
apps
export
edit
print
Embed Code - If you would like this activity on your web page, copy the script below and paste it into your web page.

  Normal Size     Small Size show me how

Chem 111 test 2

Practice for Chem111 test 2. Deltech Owens.

QuestionAnswer
The carbon-carbon double bond is rigid because of the shape of the __ in it's formation. orbitals
Rotation around a double or triple bond is __. restricted
In alkenes, __ __ differ from one another by the location of the groups on the same or opposite sides of the double bond. geometric isomers
If both groups are on the same side of the double bond, the molecule is a __ isomer. cis
If both groups are on opposite sides of the double bond, the molecule is a __ isomer. trans
Why is the carbon-carbon double bond rigid? The shape of the orbitals in its formation.
The geometric isomers in alkenes differ from one another by the location of the groups on the __ or __ sides of the double bond. same or opposite
A cis isomer is one where both groups are on the (same or opposite?) side of the double bond. same
If one of the 2 carbons of the double bond has 2 __ substituents, there are no cis-trans for that molecule. identical
A trans isomer is one where both groups are on the (same or opposite?) side of the double bond. opposite
Created by: IsaacJ