The electric field due to an electric dipole is cylindrically symmetric around the axis joining the two charges. This symmetry arises because the field depends on the dipole moment and varies with position but remains symmetric about the dipole axis. Answer: (b) cylindrically symmetric. For more visRead more
The electric field due to an electric dipole is cylindrically symmetric around the axis joining the two charges. This symmetry arises because the field depends on the dipole moment and varies with position but remains symmetric about the dipole axis.
Answer: (b) cylindrically symmetric.
The quantization of electric charge occurs because charge is transferred in discrete units of the elementary charge e, which is the charge of an electron or proton. This means charge always exists in integral multiples of e, never in fractions. Answer: (c) transfer of integral number of electrons. FRead more
The quantization of electric charge occurs because charge is transferred in discrete units of the elementary charge e, which is the charge of an electron or proton. This means charge always exists in integral multiples of e, never in fractions.
Answer: (c) transfer of integral number of electrons.
Electric field lines contract lengthwise, indicating attraction between opposite charges. This contraction represents the tendency of unlike charges to pull toward each other, minimizing potential energy. It visually demonstrates the force between opposite charges, reinforcing the fundamental princiRead more
Electric field lines contract lengthwise, indicating attraction between opposite charges. This contraction represents the tendency of unlike charges to pull toward each other, minimizing potential energy. It visually demonstrates the force between opposite charges, reinforcing the fundamental principle of electrostatic attraction, where positive and negative charges experience mutual force drawing them together, shaping the electric field accordingly.
On charging a neutral balloon, its size increases due to electrostatic repulsion. The added charge causes like charges on the balloon’s surface to repel each other, leading to expansion. This effect is noticeable in flexible materials like balloons, where the repelling charges push outward, slightlyRead more
On charging a neutral balloon, its size increases due to electrostatic repulsion. The added charge causes like charges on the balloon’s surface to repel each other, leading to expansion. This effect is noticeable in flexible materials like balloons, where the repelling charges push outward, slightly increasing the overall size of the balloon.
According to Gauss’s law, the total electric flux through a closed surface depends on the net charge enclosed. The net charge is (+8Q - 3Q + 5Q - 10Q) = 0. Since the enclosed charge is zero, the outgoing flux is also zero. Answer: (b) 0 V - m. For more visit here: https://www.tiwariacademy.com/ncertRead more
According to Gauss’s law, the total electric flux through a closed surface depends on the net charge enclosed. The net charge is (+8Q – 3Q + 5Q – 10Q) = 0. Since the enclosed charge is zero, the outgoing flux is also zero. Answer: (b) 0 V – m.
Electric field due to an electric dipole is
The electric field due to an electric dipole is cylindrically symmetric around the axis joining the two charges. This symmetry arises because the field depends on the dipole moment and varies with position but remains symmetric about the dipole axis. Answer: (b) cylindrically symmetric. For more visRead more
The electric field due to an electric dipole is cylindrically symmetric around the axis joining the two charges. This symmetry arises because the field depends on the dipole moment and varies with position but remains symmetric about the dipole axis.
Answer: (b) cylindrically symmetric.
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The cause of quantization of electric charge is
The quantization of electric charge occurs because charge is transferred in discrete units of the elementary charge e, which is the charge of an electron or proton. This means charge always exists in integral multiples of e, never in fractions. Answer: (c) transfer of integral number of electrons. FRead more
The quantization of electric charge occurs because charge is transferred in discrete units of the elementary charge e, which is the charge of an electron or proton. This means charge always exists in integral multiples of e, never in fractions.
Answer: (c) transfer of integral number of electrons.
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Electric field lines contract lengthwise. It shows
Electric field lines contract lengthwise, indicating attraction between opposite charges. This contraction represents the tendency of unlike charges to pull toward each other, minimizing potential energy. It visually demonstrates the force between opposite charges, reinforcing the fundamental princiRead more
Electric field lines contract lengthwise, indicating attraction between opposite charges. This contraction represents the tendency of unlike charges to pull toward each other, minimizing potential energy. It visually demonstrates the force between opposite charges, reinforcing the fundamental principle of electrostatic attraction, where positive and negative charges experience mutual force drawing them together, shaping the electric field accordingly.
For more visit here:
See lesshttps://www.tiwariacademy.com/ncert-solutions/class-12/physics/chapter-1/
On charging a neutral balloon, its size
On charging a neutral balloon, its size increases due to electrostatic repulsion. The added charge causes like charges on the balloon’s surface to repel each other, leading to expansion. This effect is noticeable in flexible materials like balloons, where the repelling charges push outward, slightlyRead more
On charging a neutral balloon, its size increases due to electrostatic repulsion. The added charge causes like charges on the balloon’s surface to repel each other, leading to expansion. This effect is noticeable in flexible materials like balloons, where the repelling charges push outward, slightly increasing the overall size of the balloon.
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See lesshttps://www.tiwariacademy.com/ncert-solutions/class-12/physics/chapter-1/
Four charges + 8Q – 3 Q + 5 Q and – 10 Q are kept inside a closed surface. What will be the outgoing flux through the surface,
According to Gauss’s law, the total electric flux through a closed surface depends on the net charge enclosed. The net charge is (+8Q - 3Q + 5Q - 10Q) = 0. Since the enclosed charge is zero, the outgoing flux is also zero. Answer: (b) 0 V - m. For more visit here: https://www.tiwariacademy.com/ncertRead more
According to Gauss’s law, the total electric flux through a closed surface depends on the net charge enclosed. The net charge is (+8Q – 3Q + 5Q – 10Q) = 0. Since the enclosed charge is zero, the outgoing flux is also zero. Answer: (b) 0 V – m.
For more visit here:
See lesshttps://www.tiwariacademy.com/ncert-solutions/class-12/physics/chapter-1/