Symptom: Lack of Reality of the subject.
Cure: Find some pictures.
Amino acids are made from carbon, hydrogen, oxygen, and nitrogen. A few use sulfur. This is a model of Tryptophan Synthetase where we see the atoms of oxygen (red), nitrogen (blue), and carbon (greenish). The hydrogen atoms are not shown. This is what the surface would look like. Now roll over it to see the ribbon diagram. The ribbon diagram gives you a better view of what the internal connections and structure looks like. You can tell that these pictures gives you a better grasp of this protein than that long chemical name above. Question 6: How would use the Internet to find images of Tryptophan Synthetase?
Cure: Find some pictures.
Amino acids are made from carbon, hydrogen, oxygen, and nitrogen. A few use sulfur. This is a model of Tryptophan Synthetase where we see the atoms of oxygen (red), nitrogen (blue), and carbon (greenish). The hydrogen atoms are not shown. This is what the surface would look like. Now roll over it to see the ribbon diagram. The ribbon diagram gives you a better view of what the internal connections and structure looks like. You can tell that these pictures gives you a better grasp of this protein than that long chemical name above. Question 6: How would use the Internet to find images of Tryptophan Synthetase?
methionylglutaminylarginyltyrosylglutamylserylleucylphenylalanylalanylglutaminylleucyllysylglutamylarginyl lysylglutamylglycylalanylphenylalanylvalylprolylphenylalanylvalylthreonylleucylglycylaspartylprolylglycylisol eucylglutamylglutaminylserylleucyllysylisoleucylaspartylthreonylleucylisoleucylglutamylalanylglycylalanylaspartyl alanylleucylglutamylleucylglycylisoleucylprolylphenylalanylserylaspartylprolylleucylalanylaspartylglycylprolyl threonylisoleucylglutaminylasparaginylalanylthreonylleucylarginylalanylphenylalanylalanylalanylglycylvalylthreonyl prolylalanylglutaminylcysteinylphenylalanylglutamylmethionylleucylalanylleucylisoleucylarginylglutaminyllysyl histidylprolylthreonylisoleucylprolylisoleucylglycylleucylleucylmethionyltyrosylalanylasparaginylleucylvalylphenyl alanylasparaginyllysylglycylisoleucylaspartylglutamylphenylalanyltyrosylalanylglutaminylcysteinylglutamyllysylvalyl glycylvalylaspartylserylvalylleucylvalylalanylaspartylvalyl prolylvalylglutaminylglutamylserylalanylprolylphenylalanyl arginylglutaminylalanylalanylleucylarginylhistidylasparaginyl valylalanylprolylisoleucylphenylalanylisoleucylcysteinyl prolylprolylaspartylalanylaspartylaspartylaspartylleucylleucylarginylglutaminylisoleucylalanylseryltyrosylglycyl arginylglycyltyrosylthreonyltyrosylleucylleucylserylarginylalanylglycylvalylthreonylglycylalanylglutamylasparaginyl arginylalanylalanylleucylprolylleucylasparaginylhistidylleucylvalylalanyllysylleucyllysylglutamyltyrosylasparaginyl alanylalanylprolylprolylleucylglutaminylglycylphenylalanylglycylisoleucylserylalanylprolylaspartylglutaminylvalyllysyl alanylalanylisoleucylaspartylalanylglycylalanylalanylglycylalanylisoleucylserylglycylserylalanylisoleucylvalyllysylisol eucylisoleucylglutamylglutaminylhistidylasparaginylisoleucylglutamylprolylglutamyllysylmethionylleucylalanylalanylleucyl lysylvalylphenylalanylvalylglutaminylprolylmethionyllysylalanylalanylthreonylarginylserine
Lack of reality
Lack of Reality of the subject. If you were studying proteins and all you looked at were these long names, you would definitely start to exhibit some negative feelings. Also, to you proteins would just seem like a long bunch of words with a lot of yl's in it.
Question 3: What are some of the symptoms that comes with learning a subject with a lack of reality?
Question 3: What are some of the symptoms that comes with learning a subject with a lack of reality?
Lack of Reality
Symptom: Lack of Reality of the subject.
Cure: Find some pictures.
Amino acids are made from carbon, hydrogen, oxygen, and nitrogen. A few use sulfur. This is a model of Tryptophan Synthetase where we see the atoms of oxygen (red), nitrogen (blue), and carbon (greenish). The hydrogen atoms are not shown. This is what the surface would look like. Now roll over it to see the ribbon diagram. The ribbon diagram gives you a better view of what the internal connections and structure looks like. You can tell that these pictures gives you a better grasp of this protein than that long chemical name above. Question 6: How would use the Internet to find images of Tryptophan Synthetase?
Cure: Find some pictures.
Amino acids are made from carbon, hydrogen, oxygen, and nitrogen. A few use sulfur. This is a model of Tryptophan Synthetase where we see the atoms of oxygen (red), nitrogen (blue), and carbon (greenish). The hydrogen atoms are not shown. This is what the surface would look like. Now roll over it to see the ribbon diagram. The ribbon diagram gives you a better view of what the internal connections and structure looks like. You can tell that these pictures gives you a better grasp of this protein than that long chemical name above. Question 6: How would use the Internet to find images of Tryptophan Synthetase?
How does a scientist think?
Various Links
Antimatter Is How You Destroy A Planet With The Death Star | Nerdist
Many Planets Likely Have Tatooine’s Sunset | Nerdist
This is what happens after you die | Mosaic
A kiss seen from inside the mouth. http://i.imgur.com/cdc9G5q.gif
Problems with audiences
How did they do that? Check out what happened behind the scenes.
We all know that a balloon can be popped by a sharp object like a nail. What happens to a balloon on a bed of nails?
Many Planets Likely Have Tatooine’s Sunset | Nerdist
This is what happens after you die | Mosaic
A kiss seen from inside the mouth. http://i.imgur.com/cdc9G5q.gif
Problems with audiences
How did they do that? Check out what happened behind the scenes.
We all know that a balloon can be popped by a sharp object like a nail. What happens to a balloon on a bed of nails?
http://blogs.discovermagazine.com/badastronomy/files/2012/03/vdhoeven_moon1.jpg
Check out this mosaic of the moon! This image is a rather large 18 Mega pixels. It is not a single shot, but a mosaic of 107 images that were taken by André vd Hoeven. He used a Celestron 28 cm (11") telescope similar to the one we have here in class. The image is rather big so you can scroll around it.
Check out this mosaic of the moon! This image is a rather large 18 Mega pixels. It is not a single shot, but a mosaic of 107 images that were taken by André vd Hoeven. He used a Celestron 28 cm (11") telescope similar to the one we have here in class. The image is rather big so you can scroll around it.