S1) Answer the following quesitons.
a) M 50 g  W (weight)= __________ Newton (g=10 m/s2)
f= 50Hz  T = _________ ms.
T= 100 ms  f = ________ Hz
Show : Ohm*farad = second
0,05 Mohm = _________ kohm = _______ ohm
500 mA = __________ mikroA = __________ A
b) An ampermeter has an initial resistance that 10 ohms. R = 0.6 kohm resistance is
connected to a 12.2 V dc power supply. With ampermermeter how much current flow
on this circuit? Without ampermeter, calculate the real value of current flow on this
circuit?
R = 0.6 kohm
rA = 10 ohm
 = 12.2 V
c) Write SI units of given physical quantities.
B (Magnetic Field) = ________
 (Electro-motive-Force) = _________
FB = Magnetic Field Force = ________
I (Current) = ___________
V (potential difference) = ___________
Xc (capacitif reactance) = __________
C (capacity) = ____________
R (Resistance) = _____________
S.2) Fill in the blanks with given words.
[Voltmeter, resonance, amperes, capacitor, ampermeter, resistance, , inductive reactance,
capacitive reactance,]
a) As the capacitor charges or discharges, a current flows through it which is restricted by the internal
resistance of the capacitor. This internal resistance is commonly known as ___________ and is
given the symbol XC in Ohms
b) Voltages are measured using a/an ________.
c) Metals are examples of good conductors. They have a high density of electrons that are relatively
free to move around, so that connections made with metal tend to have a low ________.
d) _________ in AC circuits implies a special frequency determined by the values of the resistance ,
capacitance , and inductance .
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e) A _________ is a passive two-terminal electrical component used to store energy electrostatically
in an electric field.
f) As the component we are interested in is an inductor, the reactance of an inductor is therefore
called _________.
g) Current is measured in ________, with units written as A.
h) Current is measured using a/an ________ which is placed in a circuit so that the current flows into
the positive terminal of the ammeter and out the negative terminal.
S3.) As shown in the figure (R=10kohm, L=10H, C=1mikroF) series RLC circuit is given. Ac power
supply is  = 10 V (f=50Hz).
a-) Calculate the experimental value of inductive reactance of inductor.
b-) Calculate the experimental value of capacitive reactance of condenser.
c-) Calculate the experimental value of total reactance = impedance (Z).
d-) with using XL = 2pifL and XC = 1/2pifC , calculate the teoric value of Xc and XL. (pi=3)
S4.) Choose any one of the experiments which you did this semester, and answer the questions.
a)What is the name and the purpose of this experiment?
b)Which physical quantities did you measure and calculate?
c) Did you draw any graphics? Which quantity is on the x and y axis?
d)What is the result of experiment?
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S5.) Connect the multimeters as given forms (ampermeter, voltmeter or ohmmeter) in the
pictures, draw true forms on the Picture.
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