A leaf electroscope is a simple apparatus to detect any charge on a body. It consist of two metal leaves OA and OB, free to rotate about O. Initially both are very slighty separted. When a charged object is touched to the metal knob at the top of the conduction re, charge flows from knob to the top of the conduction rod, charge flows from knob to the leaves through the conducting rod, charge flows from knob to the leaves through the conduction rod. As the leaves are now charged similarly, they start repelling each other and tet separted (deflected by certain angle).
The angle of deflection in static equilibrium is an indicator of the amount of charge on the charged boy.
When `a+20C` rod is touched to the knob, the deflection of leaves was `5^(@)`, and when an identical rod of `-40C` is touched, the deflection was found to be `9^(@)`. If an identical rod of `+30C` is touched, then the deflection may be:
A leaf electroscope is a simple apparatus to detect any charge on a body. It consist of two metal leaves OA and OB, free to rotate about O. Initially both are very slighty separted. When a charged object is touched to the metal knob at the top of the conduction re, charge flows from knob to the top of the conduction rod, charge flows from knob to the leaves through the conducting rod, charge flows from knob to the leaves through the conduction rod. As the leaves are now charged similarly, they start repelling each other and tet separted (deflected by certain angle).
The angle of deflection in static equilibrium is an indicator of the amount of charge on the charged boy.
When `a+20C` rod is touched to the knob, the deflection of leaves was `5^(@)`, and when an identical rod of `-40C` is touched, the deflection was found to be `9^(@)`. If an identical rod of `+30C` is touched, then the deflection may be:
The angle of deflection in static equilibrium is an indicator of the amount of charge on the charged boy.
When `a+20C` rod is touched to the knob, the deflection of leaves was `5^(@)`, and when an identical rod of `-40C` is touched, the deflection was found to be `9^(@)`. If an identical rod of `+30C` is touched, then the deflection may be:
A
0
B
`2^(@)`
C
`7^(@)`
D
`11^(@)`
Text Solution
Verified by Experts
The correct Answer is:
c
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A leaf electroscope is a simple apparatus to detect any charge on a body. It consist of two metal leaves OA and OB, free to rotate about O. Initially both are very slighty separted. When a charged object is touched to the metal knob at the top of the conduction re, charge flows from knob to the top of the conduction rod, charge flows from knob to the leaves through the conducting rod, charge flows from knob to the leaves through the conduction rod. As the leaves are now charged similarly, they start repelling each other and tet separted (deflected by certain angle). The angle of deflection in static equilibrium is an indicator of the amount of charge on the charged boy. If we perform these steps one by one. In which case, the leaves will converge (come closer), as compared to the previous state?
A leaf electroscope is a simple apparatus to detect any charge on a body. It consists of two metal leaves OA and OB, free to rotate about O. Initially both are very slightly separated. When a charged object is touched to the metal knob at the top of the conducting rod, charge flows knob to the leaves through the conducting rod. As the leaves are now charges similarly, they start repelling each other and get separated, (deflected by certain angle). The angle of deflection in static equilibrium is an indicator of the amount of charge on the charged body. When a + 20 C rod is touched to the knob, the deflection of leaves was 5^(@) , and when an identical rod of -40 C is touched, the direction was found to be 9^(@) . If an identical rod of +30 C is touched, then the deflection may be :
A leaf electroscope is a simple apparatus to detect any charge on a body. It consists of two metal leaves OA and OB, free to rotate about O. Initially both are very slightly separated. When a charged object is touched to the metal knob at the top of the conducting rod, charge flows knob to the leaves through the conducting rod. As the leaves are now charges similarly, they start repelling each other and get separated, (deflected by certain angle). The angle of deflection in static equilibrium is an indicator of the amount of charge on the charged body. In an electroscope, both leaves are hinged at the top point O. Each leaf has mass m, length l and gets charge q. assuming the charge to be concentrated at ends A and B only, the small angle of deviation (theta) between the leaves in static equilibrium, is equal to :
When two charged bodies at different potentials are connected by a conducting wire, then the charge flows from one body to another body
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Find the charge which flows from point A to B, when switch is closed
When an object is touched with the metal top of an electroscope, its aluminium leaves diverge. What conclusion do you get from this observation ?
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Knowledge Check
A leaf electroscope is a simple apparatus to detect any charge on a body. It consist of two metal leaves OA and OB, free to rotate about O. Initially both are very slighty separted. When a charged object is touched to the metal knob at the top of the conduction re, charge flows from knob to the top of the conduction rod, charge flows from knob to the leaves through the conducting rod, charge flows from knob to the leaves through the conduction rod. As the leaves are now charged similarly, they start repelling each other and tet separted (deflected by certain angle). The angle of deflection in static equilibrium is an indicator of the amount of charge on the charged boy. If we perform these steps one by one. In which case, the leaves will converge (come closer), as compared to the previous state?
A leaf electroscope is a simple apparatus to detect any charge on a body. It consist of two metal leaves OA and OB, free to rotate about O. Initially both are very slighty separted. When a charged object is touched to the metal knob at the top of the conduction re, charge flows from knob to the top of the conduction rod, charge flows from knob to the leaves through the conducting rod, charge flows from knob to the leaves through the conduction rod. As the leaves are now charged similarly, they start repelling each other and tet separted (deflected by certain angle). The angle of deflection in static equilibrium is an indicator of the amount of charge on the charged boy. If we perform these steps one by one. In which case, the leaves will converge (come closer), as compared to the previous state?
A
(i)
B
(i) and (ii)
C
only (iii)
D
In all cases, the leaves will diverse
A leaf electroscope is a simple apparatus to detect any charge on a body. It consists of two metal leaves OA and OB, free to rotate about O. Initially both are very slightly separated. When a charged object is touched to the metal knob at the top of the conducting rod, charge flows knob to the leaves through the conducting rod. As the leaves are now charges similarly, they start repelling each other and get separated, (deflected by certain angle). The angle of deflection in static equilibrium is an indicator of the amount of charge on the charged body. When a + 20 C rod is touched to the knob, the deflection of leaves was 5^(@) , and when an identical rod of -40 C is touched, the direction was found to be 9^(@) . If an identical rod of +30 C is touched, then the deflection may be :
A leaf electroscope is a simple apparatus to detect any charge on a body. It consists of two metal leaves OA and OB, free to rotate about O. Initially both are very slightly separated. When a charged object is touched to the metal knob at the top of the conducting rod, charge flows knob to the leaves through the conducting rod. As the leaves are now charges similarly, they start repelling each other and get separated, (deflected by certain angle). The angle of deflection in static equilibrium is an indicator of the amount of charge on the charged body. When a + 20 C rod is touched to the knob, the deflection of leaves was 5^(@) , and when an identical rod of -40 C is touched, the direction was found to be 9^(@) . If an identical rod of +30 C is touched, then the deflection may be :
A
0
B
`2^(@)`
C
`7^(@)`
D
`11^(@)`
A leaf electroscope is a simple apparatus to detect any charge on a body. It consists of two metal leaves OA and OB, free to rotate about O. Initially both are very slightly separated. When a charged object is touched to the metal knob at the top of the conducting rod, charge flows knob to the leaves through the conducting rod. As the leaves are now charges similarly, they start repelling each other and get separated, (deflected by certain angle). The angle of deflection in static equilibrium is an indicator of the amount of charge on the charged body. In an electroscope, both leaves are hinged at the top point O. Each leaf has mass m, length l and gets charge q. assuming the charge to be concentrated at ends A and B only, the small angle of deviation (theta) between the leaves in static equilibrium, is equal to :
A leaf electroscope is a simple apparatus to detect any charge on a body. It consists of two metal leaves OA and OB, free to rotate about O. Initially both are very slightly separated. When a charged object is touched to the metal knob at the top of the conducting rod, charge flows knob to the leaves through the conducting rod. As the leaves are now charges similarly, they start repelling each other and get separated, (deflected by certain angle). The angle of deflection in static equilibrium is an indicator of the amount of charge on the charged body. In an electroscope, both leaves are hinged at the top point O. Each leaf has mass m, length l and gets charge q. assuming the charge to be concentrated at ends A and B only, the small angle of deviation (theta) between the leaves in static equilibrium, is equal to :
A
`((2kq^(2))/(l^(2) mg))^(1//3)`
B
`((kq^(2))/(l^(2) mg))^(1//3)`
C
`((2kq^(2))/(l^(2) mg))^(1//2)`
D
`((64 kq^(2))/(l^(2) mg))^(1//3)`