Why are rain drops spheres?
How can you float a steel needle on water?
AUS-e-TUTE has just added new Surface Tension resources.
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There is a free tutorial available: http://www.ausetute.com.au/surfacetension.html
Saturday, May 31, 2014
Friday, May 23, 2014
Molecule with Anti-Cancer Kick
In 2013, medical researchers found a molecule that fights cancer in animals by boosting the cell's production of a powerful natural antitumor protein known as TRAIL. The Researchers referred to this anti-cancer molecule as TIC10, short for TRAIL Inducing Compound number 10.
The structure of this molecule, as confirmed by mass spectroscopy, was published at this time as is shown below:
Chemists at The Scripps Research Institute (TSRI) found a way to synthesize this molecule in the laboratory. However, when the Chemists gave their molecule to Biologists to test on cancer cells, this molecule failed to show any anti-cancer activity!
So, the Chemists asked the Biologists to supply some of the TIC10 that had shown anti-cancer activity. The Chemists spent months analyzing both TIC10 molecules to determine their exact molecular structure. And they discovered that the molecule the biologists had shown to fight cancer did not have the structure that was originally published, so the molecule that the Chemists had synthesized in their laboratory would not fight cancer cells,.
However, the Chemists found that the molecule that DOES fight cancer cells has a very similar structure. The structure of the active molecule is shown below:
Note that the structure originally published for TIC10 had the three nitrogen containing rings in a straight line. This new, correct, structure for TIC10 has two of the nitrogen containing rings in a straight line, but the third ring sticks out at an angle from the other two. Only this "angular" isomer (the molecule with a kick) shows any anti-cancer activity.
Kim D. Janda, the Ely R. Callaway Jr. Professor of Chemistry and member of the Skaggs Institute for Chemical Biology at TSRI has been quoted as saying, "One lesson from this has got to be: don't leave your chemists behind".
(http://www.sciencedaily.com/releases/2014/05/140519184505.htm)
Reference:
Nicholas T. Jacob, Jonathan W. Lockner, Vladimir V. Kravchenko, Kim D. Janda. Pharmacophore Reassignment for Induction of the Immunosurveillance Cytokine TRAIL. Angewandte Chemie, 2014; DOI: 10.1002/ange.201402133
Further Reading
Molecular Formula
Condensed Structural Formula
2-Dimensional Structural Formula
Skeletal Formula
Percent Composition
Functional Groups
Benzene
Mass Spectroscopy for Structural Determination
Suggested Study Questions:
The structure of this molecule, as confirmed by mass spectroscopy, was published at this time as is shown below:
Chemists at The Scripps Research Institute (TSRI) found a way to synthesize this molecule in the laboratory. However, when the Chemists gave their molecule to Biologists to test on cancer cells, this molecule failed to show any anti-cancer activity!
So, the Chemists asked the Biologists to supply some of the TIC10 that had shown anti-cancer activity. The Chemists spent months analyzing both TIC10 molecules to determine their exact molecular structure. And they discovered that the molecule the biologists had shown to fight cancer did not have the structure that was originally published, so the molecule that the Chemists had synthesized in their laboratory would not fight cancer cells,.
However, the Chemists found that the molecule that DOES fight cancer cells has a very similar structure. The structure of the active molecule is shown below:
Note that the structure originally published for TIC10 had the three nitrogen containing rings in a straight line. This new, correct, structure for TIC10 has two of the nitrogen containing rings in a straight line, but the third ring sticks out at an angle from the other two. Only this "angular" isomer (the molecule with a kick) shows any anti-cancer activity.
Kim D. Janda, the Ely R. Callaway Jr. Professor of Chemistry and member of the Skaggs Institute for Chemical Biology at TSRI has been quoted as saying, "One lesson from this has got to be: don't leave your chemists behind".
(http://www.sciencedaily.com/releases/2014/05/140519184505.htm)
Reference:
Nicholas T. Jacob, Jonathan W. Lockner, Vladimir V. Kravchenko, Kim D. Janda. Pharmacophore Reassignment for Induction of the Immunosurveillance Cytokine TRAIL. Angewandte Chemie, 2014; DOI: 10.1002/ange.201402133
Further Reading
Molecular Formula
Condensed Structural Formula
2-Dimensional Structural Formula
Skeletal Formula
Percent Composition
Functional Groups
Benzene
Mass Spectroscopy for Structural Determination
Suggested Study Questions:
- Refer to the structure of TIC10 as shown above. In one molecule, how many
- carbon atoms are present?
- hydrogen atoms are present?
- oxygen atoms are present?
- nitrogen atoms are present?
- Write the molecular formula for a molecule of TIC10.
- For the TIC10 molecule, calculate the percent by mass of
- carbon
- hydrogen
- oxygen
- nitrogen
- Convert the skeletal structure for the active anti-cancer molecule into a 2-dimensional structural formula.
- Circle one benzene ring in the structure of the active anti-cancer molecule.
- Circle and name the functional group containing an oxygen atom on the active anti-cancer molecule.
- What value do you expect for the mass-to-charge (M/Z) peak on a mass spectrum of the anti-cancer TIC10 compound ?
- Do you think mass spectroscopy alone could be used to distinguish between the two structures proposed for TIC10 above? Explain your answer.
Tuesday, May 20, 2014
Chemical Formula
What's the difference between a molecular formula, structural formula, condensed structural formula and semi-structural formula?
I'm glad you asked :)
AUS-e-TUTE has uploaded new resources on all these topics!
AUS-e-TUTE Members should log-in to the Test Centre to use the new tutorials, games, tests etc
(The syllabus guides for all Australian States/Territories: QLD, NSW, ACT, VIC, TAS, SA and WA have been updated to include these new resources, and the USA's SAT and AP syllabus guides have also been updated).
Not an AUS-e-TUTE Member?
There are free versions of the new tutorials available to you.
Follow the links from
http://www.ausetute.com.au
I'm glad you asked :)
AUS-e-TUTE has uploaded new resources on all these topics!
AUS-e-TUTE Members should log-in to the Test Centre to use the new tutorials, games, tests etc
(The syllabus guides for all Australian States/Territories: QLD, NSW, ACT, VIC, TAS, SA and WA have been updated to include these new resources, and the USA's SAT and AP syllabus guides have also been updated).
Not an AUS-e-TUTE Member?
There are free versions of the new tutorials available to you.
Follow the links from
http://www.ausetute.com.au
Friday, May 16, 2014
What's $1 Really Worth?
Have you ever wondered what the value of the metal used to make a coin is?
The Australian $1 coin has a mass of 9 grams and is composed of:
5.796 cents + 0.0945 cents + 0.342 cents = 6.2325 cents!
Further Reading:
Percentage Composition Calculations
Mass Conversions
Calculate the value of each of the following coins:
The Australian $1 coin has a mass of 9 grams and is composed of:
- 92% copper
- 6% aluminium
- 2% nickel
- 92/100 x 9 = 8.28 g of copper
- 6/100 x 9 = 0.54 g of aluminium
- 2/100 x 9 = 0.18 g of nickel
- copper: $ 7000 per tonne
- aluminium: $ 1750 per tonne
- nickel: $ 19 000 per tonne
- copper: $7000/1000 = $7 per kg = 7/1000 = $0.007 per gram = 0.7 cents per gram
- aluminium: $1750/1000 = $1.75 per kg = 1.75/1000 = $0.00175 per gram = 0.175 cents per gram
- nickel: $19000/1000 = $19 per kg = 19/1000 = $0.019 per gram = 1.9 cents per gram
- copper: 8.28 g x 0.7 cents per gram = 5.796 cents
- aluminium: 0.54 g x 0.175 cents per gram = 0.0945 cents
- nickel: 0.18 g x 1.9 cents per gram = 0.342 cents
5.796 cents + 0.0945 cents + 0.342 cents = 6.2325 cents!
Further Reading:
Percentage Composition Calculations
Mass Conversions
Calculate the value of each of the following coins:
- Australian $2 coin has a mass of 6.60 g and is composed of 92% copper, 6% aluminium, 2% nickel
- Australian 50 cent coin has a mass of 15.55 grams and is composed of 75% copper, 25% nickel
- Australian 20 cent coin has a mass of 11.31 grams and is composed of 75% copper, 25% nickel
- Australian 10 cent coin has a mass of 5.66 grams and is composed of 75% copper, 25% nickel
- Australian 5 cent coin has a mass of 2.83 grams and is composed of 75% copper, 25% nickel
- An American nickel (5 cent coin) has a mass of 5.00 grams and is composed of 75% copper, 25% nickel
- An American dime (10 cent coin) has a mass of 2.268 grams and is composed of 91.67% copper, 8.33% nickel
- An American quarter (25 cent coin) has a mass of 5.67 grams and is composed of 91.67% copper, 8.33% nickel