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Electricity and Magnetism
Physics 208 Dr. Tatiana Erukhimova Lecture 2
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Consider a force like gravitation which varies as
but 1) billion-billion-billion-billion times stronger; 2) there are two kinds of “matter”: positive and negative; Like kinds repel and unlike kinds attract (unlike gravity where there is only attraction) + + _ + _ _
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Electrical force How perfect is the balance?
All matter is a mixture of positive protons and negative electrons which are attracting and repelling with this great force. How perfect is the balance? -when you stand near someone else you don’t feel any force at all; -if you were standing at arm’s length from someone and each of you had one percent more electrons than protons, the repelling force would be enough to lift a “weight” equal to that of the entire earth! The force that holds atom together, and the chemical forces that holds molecules together, are electrical forces!
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Atoms are made with positive protons in the nucleus and with electrons outside
This picture is obsolete!
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If this electrical force is so terrific, why don’t the protons
and electrons just get on top of each other? Laws of quantum mechanics rule it out… What holds the nucleus together? A Helium Atom -There are also nuclear forces – fall off much more rapidly than
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An important consequence…..
Consider uranium with 92 (!) protons. The balance between the nuclear forces and electrical repulsion is so delicate that the nucleus is almost ready to fly apart. If we “tapped” it slightly……
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Matter is effected by forces or interactions (the terms are interchangeable)
There are four fundamental forces in the Universe: gravitation (between particles with mass) electromagnetic (between particles with charge) strong nuclear force (between quarks) weak nuclear force (that changes quark types)
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The atom contains a nucleus surrounded by a cloud of negatively charged electrons. The nucleus is composed of neutral neutrons and positively charged protons. The opposite charge of the electron and proton binds the atom together with electromagnetic forces.
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Atom is mostly empty space!
Magnify a hydrogen atom by Size of proton or neutron: ~10-15 m Size of an electron cloud: ~10-10 m (1 Angstrom) Proton mass: 1.7x10-27 kg Electron mass: 9x10-31 kg Figure 6.2: Magnifying a hydrogen atom by 1012 makes the nucleus the size of a grape seed and the diameter of the electron cloud about 4.5 times longer than a football field. The electron itself is still too small to see. the diameter of the electron cloud about 4.5 times longer than a football field
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What holds a negatively charged electron together ?
(since it has no nuclear force) 1909: Robert Millikan famous oil drop experiment The smallest charge we ever observed is the “elementary charge”: By convention, the electron has negative sign, the proton positive.
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Electrostatics (the interactions of electric charges that are at rest in our frame of reference) There are two kinds of charge, positive and negative. Charges of the same sign repel each other; charges of the opposite sign attract. All ordinary matter is made of protons, neutrons, and electrons. The positive protons and electrically neutral neutrons in nucleus of an atom are bound together by the nuclear force.
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Continue …. The negative electrons surround the nucleus at distances much greater than the nuclear size. Electric interactions are chiefly responsible for the structure of atoms, molecules, and solids.
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Coulomb’s Law Conservation of electric charge
is the permittivity of free space Conservation of electric charge Charge Charge is conserved: in any isolated system, the total charge cannot change. If it does change, then the system is not isolated: charge either went somewhere or came in from somewhere
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y L T q q x mg
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If the length is 1 meter, q = 1Coulomb, what is mg?
y L T q q x mg Your weight? –
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If we measure and know q and m, we can determine
y L T q q x mg
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Exercise: If two electrons are placed meters apart, what is
the magnitude of the Coulomb force between them? Compare this to the gravitational force between them. Solution: The magnitude of electric force The magnitude of gravitational force (no matter what the separation is)
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Principle of Superposition
The presence of other charges does not change the force exerted by point charges. One can obtain the total force by adding or superimposing the forces exerted by each particle separately. Suppose we have a number N of charges scattered in some region. We want to calculate the force that all of these charges exert on some test charge
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Problem 2 page 9 Two equal, positive charges of magnitude are positioned along the x-axis as shown. What would be the force on a positive charge, , placed on the y-axis a distance H from the x-axis? y q0 H q q x a a
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Have a great day! Hw: All Chapter 1 problems and exercises
Reading: Chapter 1, 2
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