The O in H2O has 2 bond pairs and 2 lone pairs(again, 4 total pairs). The electron pair orientation around O is tetrahedral. Two corners of the tetrahedron are "missing" because they are occupied by lone pairs, not atoms. The shape is called bent. The H-O-H bond angle is 104.4°.
H:O:H
H o h
To draw a particle diagram for glucose, you can represent each glucose molecule as a hexagon shape. Inside the hexagon, you can draw small circles to represent the individual atoms within the molecule. For glucose, there are six carbon atoms, twelve hydrogen atoms, and six oxygen atoms. You can label each atom with its respective chemical symbol to indicate the composition of the molecule.
Water is a polar molecule, meaning it has an uneven distribution of electrons (draw an electron dot diagram to see). Polar substances attract other polar substances, however polypropylene is non-polar, meaning it has an even distribution of electrons, therefore it will not be attracted to water, instead being repelled by it. similar to polar attracts polar, so does non-polar attract non-polar
This link has schematic diagrams that's should help you draw a chilled water system http://www.jmpco.com/schemat.htm
To draw the orbital diagram for hydrogen with an atomic mass of 3 and atomic number of 1, you start by writing the electron configuration as 1s1. Since hydrogen has only one electron, it occupies the 1s orbital. The orbital diagram would show a single electron in the 1s orbital, depicted as ↑.
Water is the only molecule in your body, which can move freely in the body cells. The movement depends most of the time on physical need of the tissue. When you are thirsty, water may become less in red blood cells. When you drink water, water enters the red blood cells. Most of the times water that enters the red blood cells is replaced by same amount of water. I hope that you can draw the diagram, now.
how do you draw an electron dot diagram for silicon
To draw a particle diagram for glucose, you can represent each glucose molecule as a hexagon shape. Inside the hexagon, you can draw small circles to represent the individual atoms within the molecule. For glucose, there are six carbon atoms, twelve hydrogen atoms, and six oxygen atoms. You can label each atom with its respective chemical symbol to indicate the composition of the molecule.
It is very easy. Take a nitrogen atom at center. Draw 5 valence electrons around it (keep two of them in pairs). Now take 3 hydrogen atoms in front of every free electron. Draw the electron of each hydrogen atom. Click Here to see the diagram I have drawn using using MS Paint.
It is very easy. Take a nitrogen atom at center. Draw 5 valence electrons around it (keep two of them in pairs). Now take 3 hydrogen atoms in front of every free electron. Draw the electron of each hydrogen atom. Click Here to see the diagram I have drawn using using MS Paint.
Press B or X Press B or X
The simplest way to draw a diagram that represents ionic bonding is to draw the two atoms (or more). One element while have to be drawn showing the electrons with Xs and the other with Os. Then draw arrows of electron leaving the metal atom and attaching to the non-metal.
Water is a polar molecule, meaning it has an uneven distribution of electrons (draw an electron dot diagram to see). Polar substances attract other polar substances, however polypropylene is non-polar, meaning it has an even distribution of electrons, therefore it will not be attracted to water, instead being repelled by it. similar to polar attracts polar, so does non-polar attract non-polar
You think probable to a diagram solubility versus temperature.
This link has schematic diagrams that's should help you draw a chilled water system http://www.jmpco.com/schemat.htm
How do you draw and electron cloud for 2Br and for Br2
draw or obtain a diagram of the metric conversion step
To draw the orbital diagram for hydrogen with an atomic mass of 3 and atomic number of 1, you start by writing the electron configuration as 1s1. Since hydrogen has only one electron, it occupies the 1s orbital. The orbital diagram would show a single electron in the 1s orbital, depicted as ↑.