The Electric dipole, with magnitude of charge q and separation of d is oriented vertically with...
The Electric dipole, with magnitude of charge q and separation of d is oriented vertically with dipole moment in the +y direction. Find the dipole Electric field in the plane that bisects this dipole. What is the approximation of field at distances much larger than charge separation
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The Electric dipole, with magnitude of charge q and separation
of d is oriented vertically with...
For distances z which are large compared to the charge separation d, the electric field of...
For distances z which are large compared to the charge separation d, the electric field of an electric dipole is given by E 2kqd y. If the charge is q = 4.77 mC, and the dipole separation is d=1.33 um, what is the magnitude of the electric potential of the dipole at z = 28.4 cm, assuming the potential is zero when one is infinitely far away from the dipole. Z -9 d +9
For distances z which are large compared to the charge separation d, the electric field 2kgd...
For distances z which are large compared to the charge separation d, the electric field 2kgd of an electric dipole is given by E y. If the charge is q = 4.77 mC, and the dipole separation is d = 1.33 um, what is the magnitude of the electric potential of the dipole at z = 28.4 cm, assuming the potential is zero when one is infinitely far away from the dipole. Z -9 d +9
23 For distances z which are large compared to the charge separation d, the electric field...
23 For distances z which are large compared to the charge separation d, the electric field of an electric dipole is given by Ē 2kqd -ý. If the charge is q = 4.77 mC, and the dipole separation is d = 1.33 um, what is the magnitude of the electric potential of the dipole at z = 28.4 cm, assuming the potential is zero when one is infinitely far away from the dipole. Z -9 d +9
An electric field can induce an electric dipole in a neutral molecule (or atom) by pushing...
An electric field can induce an electric dipole in a neutral molecule (or atom) by pushing the positive and negative charges inside the molecule in opposite directions. The dipole moment of the induced dipole is directly proportional to the electric field at the molecule. That is, p⃗ =αE⃗ , where p⃗ is the induced dipole moment, α is called the polarizability of the molecule, and E⃗ is the electric field at the molecule. A stronger electric field at the molecule results in a...
A particular organic molecule forms an electric dipole by possessing an effective charge separation of 0.193...
A particular organic molecule forms an electric dipole by possessing an effective charge separation of 0.193 nm for a pair of +1.60 x 1019-C charges. What is the magnitude of the molecule's electric dipole moment? Number C m Find the magnitude of the torque that acts on the molecule when it is immersed in a uniform electric field of 3.77 x105 N/C with its electric dipole vector at an angle of 58.5° from the direction of the field. Number N....
Question 16 of 17> A certain electric dipole consists of charges +q and -q separated by...
Question 16 of 17> A certain electric dipole consists of charges +q and -q separated by distance d, oriented along the x-axis as shown in the figure. Find an expression for the magnitude of the electric field E of the dipole at a point far away in the y-direction, a distance r away from the midpoint of the dipole. Assume that r is much greater than d. Enter your answer in terms of q, d, r, and eo Figure is...
An electric dipole consists of a negative charge- located at (0,-) and a positive charge +q...
An electric dipole consists of a negative charge- located at (0,-) and a positive charge +q located at (0, +3). The dipole moment p is defined as a vector of magnitude qs directed from the negative charge of the dipole to the positive charge of the dipole. (a) Show that the net force exerted by the dipole on a charge +Q located on the r-axis at a distance r from the dipole is given by: s 2 -3/2 F- r"...
A molecule can be modeled as an electric dipole with a charge +q at x=a and...
A molecule can be modeled as an electric dipole with a charge +q at x=a and a charge –q at x=−a. Evaluate the electric field on the y axis and find an approximate expression valid at large distances (y>>a).
2. Show that the electric field of a dipole on its axis points in the direction...
2. Show that the electric field of a dipole on its axis points in the direction of dipole moment and on the transverse axis in direction opposite to that of the dipole moment. Further, show that electric field varies inversely as the cube of the distance: assume that the distance of point under consideration is much larger than the separation of charges of a dipole.
Some types of molecules that do not possess an intrinsic electric dipole moment can be given...
Some types of molecules that do not possess an intrinsic electric dipole moment can be given one by an external electric field in a process called charge separation, or polarization. In this process, their internal charge distribution becomes distorted by the field, which results in the region of a molecule on the side in the direction of the field gaining a positive net charge and the region on the other side gaining a negative net charge. Both charges have equal...
For distances z which are large compared to the charge separation d, the electric field of an electric dipole is given by E 2kqd y. If the charge is q = 4.77 mC, and the dipole separation is d=1.33 um, what is the magnitude of the electric potential of the dipole at z = 28.4 cm, assuming the potential is zero when one is infinitely far away from the dipole. Z -9 d +9
For distances z which are large compared to the charge separation d, the electric field 2kgd of an electric dipole is given by E y. If the charge is q = 4.77 mC, and the dipole separation is d = 1.33 um, what is the magnitude of the electric potential of the dipole at z = 28.4 cm, assuming the potential is zero when one is infinitely far away from the dipole. Z -9 d +9
23 For distances z which are large compared to the charge separation d, the electric field of an electric dipole is given by Ē 2kqd -ý. If the charge is q = 4.77 mC, and the dipole separation is d = 1.33 um, what is the magnitude of the electric potential of the dipole at z = 28.4 cm, assuming the potential is zero when one is infinitely far away from the dipole. Z -9 d +9
A particular organic molecule forms an electric dipole by possessing an effective charge separation of 0.193 nm for a pair of +1.60 x 1019-C charges. What is the magnitude of the molecule's electric dipole moment? Number C m Find the magnitude of the torque that acts on the molecule when it is immersed in a uniform electric field of 3.77 x105 N/C with its electric dipole vector at an angle of 58.5° from the direction of the field. Number N....
Question 16 of 17> A certain electric dipole consists of charges +q and -q separated by distance d, oriented along the x-axis as shown in the figure. Find an expression for the magnitude of the electric field E of the dipole at a point far away in the y-direction, a distance r away from the midpoint of the dipole. Assume that r is much greater than d. Enter your answer in terms of q, d, r, and eo Figure is...
An electric dipole consists of a negative charge- located at (0,-) and a positive charge +q located at (0, +3). The dipole moment p is defined as a vector of magnitude qs directed from the negative charge of the dipole to the positive charge of the dipole. (a) Show that the net force exerted by the dipole on a charge +Q located on the r-axis at a distance r from the dipole is given by: s 2 -3/2 F- r"...
2. Show that the electric field of a dipole on its axis points in the direction of dipole moment and on the transverse axis in direction opposite to that of the dipole moment. Further, show that electric field varies inversely as the cube of the distance: assume that the distance of point under consideration is much larger than the separation of charges of a dipole.
Some types of molecules that do not possess an intrinsic electric dipole moment can be given one by an external electric field in a process called charge separation, or polarization. In this process, their internal charge distribution becomes distorted by the field, which results in the region of a molecule on the side in the direction of the field gaining a positive net charge and the region on the other side gaining a negative net charge. Both charges have equal...
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