A readily photocopiable crossword which covers AQA science terms for year ten. Comes with answers.
I have included an interactive version, should you wish to do it with a class on the whiteboard. Simply click on ‘index’
A simple worksheet in black and white for ready photocopying. Students need to be able to work out the type of bonding from the name, and then match the type of bonding to the properties.
A simple worksheet giving lots of examples of calculating Mr values. answers included. Black and white for ease of photocopying.
Consists of introductory page, examples on back, and final page with answers.
This could be used as an AFL around the whiteboard. Open the html document by double clicking. Students drag the molecular model to the correct shape. If it’s correct it sticks.
Please note: in order to provide a rich interactive experience, my drag & drop resources are mini-web sites local to your computer. After unzipping, they comprise a folder containing the main .html file and another folder containing the graphic resources and my coding to make the resource work. Double click on the .html file and the resource will work. If, however , you move or delete any of the files from this hierarchy, the resource will not work.
Drag the electronic configuration to the element, if it is correct it sticks, but not if it’s wrong. Useful as a quick AFL around the board. Helps students to quickly see patterns in the structure of the atom. Double click on the html file. No flash plugin required.
I suggest you zoom out in the browser view to assist solving.
A readily photocopied (B&W) worksheet on calculating numbers of moles. The first page is introductory, with some examples, the second page has ten questions of introductory difficulty.
Drag the structure to the name and drop… If it is correct it sticks. Useful around the whiteboard for AFL.
Simply open the html file.
Please note: in order to provide a rich interactive experience, my drag & drop resources are mini-web sites local to your computer. After unzipping, they comprise a folder containing the main .html file and another folder containing the graphic resources and my coding to make the resource work. Double click on the .html file and the resource will work. If, however , you move or delete any of the files from this hierarchy, the resource will not work.
Introduction on the front, eleven questions on naming esters on the back. All in black and white for photocopying cheaply. To save you some time. Useful for GCSE, but could be used at A level.
Double click the particles.html file, and the interactive drag and drop activity will open in your web browser. Drag the picture to the best description, if correct it will stick. Distinguish between pure elements, pure compound and mixtures of both. Good AFL around the board to check understanding of particles. maybe print out solution for revision.
Please note: in order to provide a rich interactive experience, my drag & drop resources are mini-web sites local to your computer. After unzipping, they comprise a folder containing the main .html file and another folder containing the graphic resources and my coding to make the resource work. Double click on the .html file and the resource will work. If, however , you move or delete any of the files from this hierarchy, the resource will not work.
Burning ethane.
If I burn 10g of ethane, how much carbon dioxide will I get?
A simple powerpoint show.
Two slightly different approaches are illustrated, , you could use either or both
( I have now corrected the error in the equation.)
This is a very simple worksheet. Link the name of the polymer to its monomer. Then draw the repeating unit. A drag and drop version may follow. Watch this space.