We have a lab tommorow
-Each person in the group drops it 50 times at shoulder length with arm extended
-Record where it sticks in the target after each drop
-If it doesn't go through the paper, mark an x where it hit
-You decide whether it is in or out if it lands on a line
-Don't poke people with the darts (Ben).
Notes
-The 3d sublevel is higher in energy than the 4s sublevel, so they are filled in the order
4s3d
-D Block metals are typically have metallic properties and are often referred to as
transition elements
-P Block elements consist of all the elements of Groups 13-18 except helium.
-The p Block elements together with the s Block elements are called the main-group
elements
-Properties of elements of the p Block vary greatly.
-At it's right hand-end, the p Block includes all of the nonmetals except hydrogen
and helium
-All 6 of the metalloids are also in the p Block
-At the left-hand side and bottom of the block, there are 8 p Block metals.
-The elements of group 17 are known as the halogens
-flourine, chlorine, bromine, iodine, and astatine
-The halogens are the most reactive nonmetals
-They react vigourously with most metals to form examples of the type of
compound known as salts
-The metalloids, or semiconducting elements, are located between nonmetals and metals in
the p Block
-The metals of the p Block are generally harder and denser than the s Block alkaline earth
metals, but softer and less dense than the d Block metals
-In the periodic table, the f Block elements are wedged between Groups 3 and 4 in the
sixth and seventh periods
-Their position reflects the fact that they involve the filling of the 4f sublevel.
-The first row of the f Block, the lanthanides, are shiny metals similar in reactivity to the
Group 2 alkaline metals
-The second row of the f Block, the actinides, are between actinium and rutherfordium.
These actinides are all radioactive.
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This website is about the elcetron probability of hitting the nucleus
ReplyDeletehttp://www.math.washington.edu/~ejpecp/
http://www.youtube.com/watch?v=sWP4GL5FbUc
ReplyDeletethis video shows some of the physical properties of the halogens.
http://www.rsc.org/chemsoc/visualelements/Pages/data/intro_groupi_data.html
ReplyDeleteThis site gives details about the Alkali Metals
If you make a bad drop and it dosent make a hole, redo the drop. Also if your group dicides that if the hole is on the line and counted "in", that call needs to be consistantly made throughout the experiment.
ReplyDeleteHere is a site that talks more about the periodic table:http://www.chemicool.com/#
ReplyDeletehttp://www.answers.com/topic/actinide-elements
ReplyDeleteHere's a website that talks some about the actinide elements of the periodic table.
this is a website about the noble gases
ReplyDeletehttp://www.chemicalelements.com/groups/noblegases.html
This is a website that explains periodic properties of elements.
ReplyDeletehttp://www.chem1.com/acad/webtext/atoms/atpt-6.html
remember the lab procedures for tomorrow and DO NOT hit anyone or attempt to hit anyone with a dart, its not cool and will fail you for the semester.
ReplyDeleteDrop from shoulder height and hit the board
have a happy weekend
http://hyperphysics.phy-astr.gsu.edu/Hbase/pertab/metal.html#c1
ReplyDeleteThis website compares the general chemical/physical properties of metals and nonmetals.
http://chemistry.about.com/od/elementgroups/a/metalloids.htm
ReplyDeleteAdditional information of metalloids.
Don't forget that for the upcoming test, Dr. said that we must know the characteristics of the elements (are they shiny and such)
ReplyDeletethis site gives a lot of info about the elements
ReplyDeletehttp://www.chemtopics.com/elements.htm
http://wps.prenhall.com/esm_hillpetrucci_genchem_4/0,8603,1081891-,00.html
ReplyDeleteThis website goes over the different element blocks
Its not nice to point out names patrick. I am offended by your blog.
ReplyDeleteThis is a good site on element blocks
http://www.gordonengland.co.uk/elements/blocks.htm