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A uniform electric field exists in xy plane as shown in figure. Find teh potential difference between origin O and A ( d, d, 0 ) .
01
Nov
A uniform electric field exists in xy plane as shown in figure. Find teh potential difference between origin O and A ( d, d, 0 ) . 0 ) A uniform electric field exists in xy plane as shown in figure. Find teh potential difference between origin O and A ( d D November 1, [...]
Posted in: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
Tags: 0 ) , A uniform electric field exists in xy plane as shown in figure. Find teh potential difference between origin O and A ( d , D ,
The figure given below is a plot of binding energy per nucleon, Eb, against the nuclear mass M; A, B, C, D, E, and F correspond to different nuclei. Consider four reactions:
20
Oct
The figure given below is a plot of binding energy per nucleon, Eb, against the nuclear mass M; A, B, C, D, E, and F correspond to different nuclei. Consider four reactions: -e against the nuclear mass M; A and F correspond to different nuclei. Consider four reactions: B C D Eb The figure given [...]
Posted in: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
Tags: -e , against the nuclear mass M; A , and F correspond to different nuclei. Consider four reactions: , B , C , D , Eb , The figure given below is a plot of binding energy per nucleon ,
For four particle A,B,C,D, are in motion. the velocities of one with respect to other are given as V→DC is 20ms towards north, V→BC is 20ms towards east and V→BA is 20ms towards south. Then V→DA is
18
Oct
For four particle A,B,C,D, are in motion. the velocities of one with respect to other are given as V→DC is 20ms towards north, V→BC is 20ms towards east and V→BA is 20ms towards south. Then V→DA is are in motion. the velocities of one with respect to other are given as V→DC is 20ms towards [...]
Posted in: Arihant Physics by D.C Pandey , Chapter 3 - Motion in One Dimension , Volume 2 ,
Tags: are in motion. the velocities of one with respect to other are given as V→DC is 20ms towards north , B , C , D , For four particle A , V→BC is 20ms towards east and V→BA is 20ms towards south. Then V→DA is ,
A current I flows in a rectangularly shaped wire whose center lies at (x 0 ,0 , 0) and whose vertices are located at the point A(x 0 ​+d, −a, −b ),B (x 0 −d ,a ,−b), C(x 0 ​ −d, a, +b), and D(x 0 ​+d,−a,+b) respectively. Assume that a, b, d <<x 0 ​ . Find the magnitude of magnetic dipole moment vector of the rectangular wire frame in J/T. (Given: b = 10 m, I = 0.01 A, d = 4 m, a = 3 m.)
16
Oct
A current I flows in a rectangularly shaped wire whose center lies at (x 0 ,0 , 0) and whose vertices are located at the point A(x 0 ​+d, −a, −b ),B (x 0 −d ,a ,−b), C(x 0 ​ −d, a, +b), and D(x 0 ​+d,−a,+b) respectively. Assume that a, b, d <<x 0 [...]
Posted in: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
Tags: +b) respectively. Assume that a , −a , −b) , 0) and whose vertices are located at the point A(x 0 ​+d , a = 3 m.) , A current I flows in a rectangularly shaped wire whose center lies at (x 0 , A) , and D(x 0 ​+d , B , B (x 0 −d , C(x 0 ​ −d , D , d = 4 m` , I = 0.01 A ,
Example 7 : In triangle ABC, D, E and F are respectively the midpoints of sides AB, BC and CA show that triangle ABC is divided into four congruent Triangles by joining D E and F​.
15
Oct
Example 7 : In triangle ABC, D, E and F are respectively the midpoints of sides AB, BC and CA show that triangle ABC is divided into four congruent Triangles by joining D E and F​. BC and CA show that triangle ABC is divided into four congruent Triangles by joining D E and F​. [...]
Posted in: Chapter 8 - Quadrilaterals , Maths , NCERT Class 9 ,
Tags: BC and CA show that triangle ABC is divided into four congruent Triangles by joining D E and F​. , D , E and F are respectively the midpoints of sides AB , Example 7 : In triangle ABC ,
D, E and F are respectively the midpoints of sides ab BC and CA of triangle ABC find the ratio of the areas of triangle DEF in triangle ABC.
05
Oct
D, E and F are respectively the midpoints of sides ab BC and CA of triangle ABC find the ratio of the areas of triangle DEF in triangle ABC. D E and F are respectively the midpoints of sides ab BC and CA of triangle ABC find the ratio of the areas of triangle DEF [...]
Posted in: Chapter 6 - Triangles , Maths , NCERT Class 10 ,
Tags: D , E and F are respectively the midpoints of sides ab BC and CA of triangle ABC find the ratio of the areas of triangle DEF in triangle ABC. ,
The system shown in Fig. 6.388 is initially in equilibrium. Masses of the blocks A, B, C, D, and E are, respectively, 3 kg, 3 kg, 2 kg, 2 kg and 2 kg, Match the conditions in Column 1 with the effect in Column 2.
30
Sep
The system shown in Fig. 6.388 is initially in equilibrium. Masses of the blocks A, B, C, D, and E are, respectively, 3 kg, 3 kg, 2 kg, 2 kg and 2 kg, Match the conditions in Column 1 with the effect in Column 2. 2 kg 2 kg and 2 kg 3 kg and [...]
Posted in: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
Tags: 2 kg , 2 kg and 2 kg , 3 kg , and E are , B , C , D , Match the conditions in Column 1 with the effect in Column 2. , respectively , The system shown in Fig. 6.388 is initially in equilibrium. Masses of the blocks A ,
Two infinite plane sheets A and B are shown in the figure the surface charge densities on A and B are (2/π)×10^−9 C/m^2 and (−1/π) × 10^−9 C/m^2 respectively .C,D, E are three points where electric fields (in N/C) are EC, EDa nd EE repectively.
17
Sep
Two infinite plane sheets A and B are shown in the figure the surface charge densities on A and B are (2/π)×10^−9 C/m^2 and (−1/π) × 10^−9 C/m^2 respectively .C,D, E are three points where electric fields (in N/C) are EC, EDa nd EE repectively. D E are three points where electric fields (in N/C) [...]
Posted in: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
Tags: D , E are three points where electric fields (in N/C) are EC , EDa nd EE repectively. , Two infinite plane sheets A and B are shown in the figure the surface charge densities on A and B are (2/π)×10^−9 C/m^2 and (−1/π) × 10^−9 C/m^2 respectively .C ,
The phase of light wave at c, d, e and f are phiC, phiA, phiC and PhiF respectively. It is given that phiC is not equal to phiF.
12
Sep
The phase of light wave at c, d, e and f are phiC, phiA, phiC and PhiF respectively. It is given that phiC is not equal to phiF. D e and f are phiC phiA phiC and PhiF respectively. It is given that phiC is not equal to phiF. The phase of light wave at [...]
Posted in: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
Tags: D , e and f are phiC , phiA , phiC and PhiF respectively. It is given that phiC is not equal to phiF. , The phase of light wave at c ,
The resistance and batteries are connected as shown in. The potentials at points B,C,D, and E are assigned as shown. Find the potential at point A.
02
Sep
The resistance and batteries are connected as shown in. The potentials at points B,C,D, and E are assigned as shown. Find the potential at point A. and E are assigned as shown. Find the potential at point A. C D The resistance and batteries are connected as shown in. The potentials at points B September [...]
Posted in: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
Tags: and E are assigned as shown. Find the potential at point A. , C , D , The resistance and batteries are connected as shown in. The potentials at points B ,