question no 5..............................................................................................
Answers
Answer:
Electrical resistivity (also known as resistivity, specific electrical resistance, or volume resistivity) quantifies how strongly a given material opposes the flow of electric current. A low resistivity indicates a material that readily allows the movement of electric charge. Low resistance metals, e.g. copper, require larger currents to produce the same amount of heat. Low resistance materials also exhibit low contact resistance.
The SI unit of electrical resistivity is the ohm⋅metre (Ω⋅m). It is commonly represented bythe Greek letter ρ, rho.
Experiment:
Aim : To study the factors on which resistance of conducting wires depends. Apparatus Required : A cell, an ammeter, nichrome wires of different length but same area of cross-section (thickness), nichrome wires of same length but different thickness, copper and iron wire of the same length and same thickness as that of any nichrome wire.
Procedure :
Connect the cell, an ammeter and plug key in series with nichrome wire of length T (marked 1) in the gap XY as shown.
electricity-chapter-wise-important-questions-class-10-science-9
Close the key and note the reading of ammeter. It measures the current ‘I’1 through the nichrome wire (marked ‘1’).
Replace the marked 1 wire with another nichrome wire having same area of cross-section (thickness) but of double length’2l’ (marked 2).
Note the ammeter reading (I2) again after closing the key.
Again replace the marked 2 wire with marked 3 wire which has the same length but is thicker than marked 1 and 2 nichrome wires. Again note down the current (I3) through this wire.
Unplug the key. Remove marked 3 nichrome wire from the gap XY. Connect the copper wire marked 4 having same length and same area of cross-section as that of nichrome wire marked 1. .
Plug the key again and note the ammeter reading. It measures the current (I4) through copper wire.
Repeat the experiment with iron wire and measure the current (I5).
Observation :
Current ‘ I’ is half ofI1 i.e., I2 =1/2 I1
Current I3 increases when thicker wire of same length and of same material
i. e., nichrome is used.
Current I4 and I5 is different for copper and iron wire.
Conclusion :
Different wires drew different amount of current from the same cell.
First observation indicates that the resistance of the conductor increases with increase in length. So, resistance is directly proportional to length.
Second observation shows that thicker wires have lesser resistance. So, resistance is inversely proportional to area of cross section of the wire.
Third observation shows that resistance of the conductor depends on the nature of its material.
Resistivity may be defined as the nature of the material used for making the conductor. It is denoted by (rho).
Resistance is the quantity which opposes the flow of current. Its S.I unit is Ohm.
Resistance = Resistivity×Length
Area
R is directly proportional to Length of conductor.
R is inversly proportional to Area of Conductor.
Here,Resistivity is used as constant of proportionality........