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The energy levels of a hypothetical one electron atom are given by En = -18.0/n^2 eV, where n = 1, 2, 3,……. (a) Compute the four lowest energy levels and construct the energy level diagram.
11
Sep
The energy levels of a hypothetical one electron atom are given by En = -18.0/n^2 eV, where n = 1, 2, 3,……. (a) Compute the four lowest energy levels and construct the energy level diagram. ....... (a) Compute the four lowest energy levels and construct the energy level diagram. 2 3% The energy levels of [...]
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Tags: ....... (a) Compute the four lowest energy levels and construct the energy level diagram. , 2 , 3% , The energy levels of a hypothetical one electron atom are given by En = -18.0/n^2 eV , where n = 1 ,
Figure shows the displacement time graph of a particle executing SHM with a time period T. Four points 1, 2, 3 and 4 are marked on the graph where the displacement is half that of the amplitude
03
Sep
Figure shows the displacement time graph of a particle executing SHM with a time period T. Four points 1, 2, 3 and 4 are marked on the graph where the displacement is half that of the amplitude 2 3 and 4 are marked on the graph where the displacement is half that of the amplitude [...]
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Tags: 2 , 3 and 4 are marked on the graph where the displacement is half that of the amplitude , Figure shows the displacement time graph of a particle executing SHM with a time period T. Four points 1 ,
Two capacitors A and B with capacities 3μF and 2μF are charged to a potential difference of 100V and 180V, respectively. The plates of the capacitors are connected as show in figure with one wire of each capacitor free. The upper plate of A is positive and that of B is negastive. An uncharged 2μF capcitor C with lead wires falls on the free ends to complete the circuit. Calculate a. the final charge on the three capacitors. b. the amount of electrostatic energy stored in the system before and after completion of the circuit.
02
Sep
Two capacitors A and B with capacities 3μF and 2μF are charged to a potential difference of 100V and 180V, respectively. The plates of the capacitors are connected as show in figure with one wire of each capacitor free. The upper plate of A is positive and that of B is negastive. An uncharged 2μF [...]
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Tags: 1 , 2 , 3% , A body cools from 60∘C to 50∘C in 10 minutes . If the room temperature is 25∘C and assuming Newton's law of cooling to hold good , Five identical conducting plates , the temperature of the body at the end of the next 10 minutes will be , Two capacitors A and B with capacities 3μF and 2μF are charged to a potential difference of 100V and 180V ,
Two parallel plate capacitors A and B have the same separation d = 8.85×10^−4 m between the plates. The plate area of A and B are 0.04 m^2 and 0.02 m^2 respectively. A slab of dielectric constant (relative permittivity) K = 9 has dimensions such that it can exactly fill the space between the plates of capacitor B. (i) The dielectric slab is placed inside. A as shown in figure (a). A is then charged to a potential difference of 110V. Calculate the capacitance of A and the energy stored in it. The battery is disconnected and then the dielectric slab is moved from A. Find the work done by the external agency in removing the slab from A. (iii) The same dielectric slab is now placed inside B, filling it completely, The two capacitors A and B are then connected as shown in figure(c). Calculate the energy stored in the system.
02
Sep
Two parallel plate capacitors A and B have the same separation d = 8.85×10^−4 m between the plates. The plate area of A and B are 0.04 m^2 and 0.02 m^2 respectively. A slab of dielectric constant (relative permittivity) K = 9 has dimensions such that it can exactly fill the space between the plates [...]
Posted in: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
Tags: 1 , 2 , 3% , A body cools from 60∘C to 50∘C in 10 minutes . If the room temperature is 25∘C and assuming Newton's law of cooling to hold good , Five identical conducting plates , the temperature of the body at the end of the next 10 minutes will be ,
Five identical conducting plates, 1,2,3,4 and 5 are fixed parallel pltes equidistant from each other (see figure). A conductor connects plates 2 and 5 while another conductor joins 1 and 3. The junction of 1 and 3 and the plate 4 are connected to a source of constant emf V0. Find (a) the effective capacity of the system between the terminals of source. (b) the charges on the plates 3 and 5. Given, d= distance between any two successive plates and A= area of either face of each plate.
02
Sep
Five identical conducting plates, 1,2,3,4 and 5 are fixed parallel pltes equidistant from each other (see figure). A conductor connects plates 2 and 5 while another conductor joins 1 and 3. The junction of 1 and 3 and the plate 4 are connected to a source of constant emf V0. Find (a) the effective capacity [...]
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Tags: 1 , 2 , 3% , A body cools from 60∘C to 50∘C in 10 minutes . If the room temperature is 25∘C and assuming Newton's law of cooling to hold good , Five identical conducting plates , the temperature of the body at the end of the next 10 minutes will be ,
A physical quantity X=A²B³/C√D, If the percentage errors of measurement in A,B,C and D are 4%,2%,3%and 1% respectively then calculate percentage error in X.
31
Aug
A physical quantity X=A²B³/C√D, If the percentage errors of measurement in A,B,C and D are 4%,2%,3%and 1% respectively then calculate percentage error in X. 2 3%and 1% respectively then calculate percentage error in X. A physical quantity X=A²B³/C√D B C and D are 4% If the percentage errors of measurement in A August 31, 2020 [...]
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Tags: 2 , 3%and 1% respectively then calculate percentage error in X. , A physical quantity X=A²B³/C√D , B , C and D are 4% , If the percentage errors of measurement in A ,
Two point charges Q1 and Q2 lie along a line at a distance from each other. Figure 3.7 shows the potential variation along the line of charges. At which of the points 1, 2, and 3 is the electric field zero ? What are the singns of the charges Q1 and Q2 and which of the two charges is greater in magnitude ?
31
Aug
Two point charges Q1 and Q2 lie along a line at a distance from each other. Figure 3.7 shows the potential variation along the line of charges. At which of the points 1, 2, and 3 is the electric field zero ? What are the singns of the charges Q1 and Q2 and which of [...]
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Tags: 2 , and 3 is the electric field zero ? What are the singns of the charges Q1 and Q2 and which of the two charges is greater in magnitude ? , Two point charges Q1 and Q2 lie along a line at a distance from each other. Figure 3.7 shows the potential variation along the line of charges. At which of the points 1 ,
Three charges q1 = 1muC, q2 = -2 muC, and q3 = -1 muC are placed at A( 0, 0, 0 ), B(-1, 2, 3, ) and C( 2, -1, -1 ). find the potiential of the system of three charges at p(1, -2, -1).
31
Aug
Three charges q1 = 1muC, q2 = -2 muC, and q3 = -1 muC are placed at A( 0, 0, 0 ), B(-1, 2, 3, ) and C( 2, -1, -1 ). find the potiential of the system of three charges at p(1, -2, -1). -1 ). find the potiential of the system of three [...]
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Tags: -1 ). find the potiential of the system of three charges at p(1 , ) and C( 2 , 0 ) , 1 , 2 , 3% , and q3 = -1 muC are placed at A( 0 , B(-1 , q2 = -2 muC , Three charges q1 = 1muC ,
Two identical metal plates each having surface area A, having charges q1 and q2, are placed facing each other at a separation d. Find the charge appearing on surface (1) , (2), (3), and (4). Assume the size of the plate is much larger than the separation between the plates.
31
Aug
Two identical metal plates each having surface area A, having charges q1 and q2, are placed facing each other at a separation d. Find the charge appearing on surface (1) , (2), (3), and (4). Assume the size of the plate is much larger than the separation between the plates. 2 3% and (4). Assume [...]
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Tags: 2 , 3% , and (4). Assume the size of the plate is much larger than the separation between the plates. , are placed facing each other at a separation d. Find the charge appearing on surface (1) , having charges q1 and q2 , Two identical metal plates each having surface area A ,
The moment of the force, vector F = 4i cap + 5j cap – 6k cap at (2, 0, – 3), about the point (2, –2, –2), is given by:-
29
Aug
The moment of the force, vector F = 4i cap + 5j cap – 6k cap at (2, 0, – 3), about the point (2, –2, –2), is given by:- 2 3% about the point (2 is given by The moment of the force vector F = 4i cap + 5j cap - 6k cap [...]
Posted in: Chapter 11 - Rotational Mechanics , NEET Last 32 Years Solved 1988 - 2019 Physics and Chemistry Video Solutions , Physics ,
Tags: 2 , 3% , about the point (2 , is given by , The moment of the force , vector F = 4i cap + 5j cap - 6k cap at (2 ,