The epic poem "Raghuvansh" was written by the ancient Indian poet Kalidasa. Kalidasa is one of the most celebrated poets and playwrights in classical Sanskrit literature. "Raghuvansh" narrates the history of the Raghu dynasty, specifically focusing on the life and exploits of King Dilipa and his sucRead more
The epic poem “Raghuvansh” was written by the ancient Indian poet Kalidasa. Kalidasa is one of the most celebrated poets and playwrights in classical Sanskrit literature. “Raghuvansh” narrates the history of the Raghu dynasty, specifically focusing on the life and exploits of King Dilipa and his successors, leading up to the birth and reign of Lord Rama. Kalidasa is also renowned for other significant works such as “Shakuntala” and “Meghaduta.”
Germ cells, specifically sperm and egg cells, play a crucial role in the process of inheriting genes from parents. These cells are specialized for sexual reproduction and carry half the genetic material of a somatic cell. During fertilization, a sperm cell from the father fuses with an egg cell fromRead more
Germ cells, specifically sperm and egg cells, play a crucial role in the process of inheriting genes from parents. These cells are specialized for sexual reproduction and carry half the genetic material of a somatic cell. During fertilization, a sperm cell from the father fuses with an egg cell from the mother, resulting in the formation of a zygote. This zygote contains a complete set of genes, with half contributed by each parent. Germ cells thus serve as the vehicles for transmitting genetic information, ensuring the inheritance of traits from both maternal and paternal sources in the offspring.
Germ cells generate a single set of genes from the usual two copies found in other body cells through a specialized cell division process called meiosis. In meiosis, germ cells undergo two consecutive divisions, resulting in the production of four haploid cells, each with half the usual number of chRead more
Germ cells generate a single set of genes from the usual two copies found in other body cells through a specialized cell division process called meiosis. In meiosis, germ cells undergo two consecutive divisions, resulting in the production of four haploid cells, each with half the usual number of chromosomes. This reduction in chromosome number ensures that when the sperm (from the father) and egg (from the mother) fuse during fertilization, the resulting zygote has the correct diploid number of chromosomes. This process ensures genetic diversity and the transmission of a unique combination of genes to the offspring.
Electrical conductance (or electrical conductivity) is the ability of a solution to conduct an electrical current. By inserting two electrodes into distilled water a direct current does not flow through, but if the solution contains electrolytes the electrical current flows through the salt solutionRead more
Electrical conductance (or electrical conductivity) is the ability of a solution to conduct an electrical current. By inserting two electrodes into distilled water a direct current does not flow through, but if the solution contains electrolytes the electrical current flows through the salt solution.
Molar Conductivity is defined as the Conductivity of the solution of an electrolyte divided by the Molar concentration of the electrolyte, and so gauges the efficiency with which an allotted electrolyte conducts electricity in solution.
Molar Conductivity is defined as the Conductivity of the solution of an electrolyte divided by the Molar concentration of the electrolyte, and so gauges the efficiency with which an allotted electrolyte conducts electricity in solution.
Kohlrausch's law of independent migration of ions states that the limiting molar conductivity of an electrolyte can be represented as the sum individual contributions of its cations & anions. The conductivity of a solution decrease with dilution because less ions are present for conduction.
Kohlrausch’s law of independent migration of ions states that the limiting molar conductivity of an electrolyte can be represented as the sum individual contributions of its cations & anions. The conductivity of a solution decrease with dilution because less ions are present for conduction.
The two applications of Kohlrausch’s law are, (i) the molar conductivity of weak electrolytes at infinite dilution can be calculated using Kohlrausch’s law. (ii) degree of dissociation of weak electrolyte (like acetic acid) at a given concentration can be calculated.
The two applications of Kohlrausch’s law are,
(i) the molar conductivity of weak electrolytes at infinite dilution can be calculated using Kohlrausch’s law. (ii) degree of dissociation of weak electrolyte (like acetic acid) at a given concentration can be calculated.
After his extensive investigations on electrolysis of solutions and melts of electrolytes, Faraday published his results during 1833-34 in the form of the following well known Faraday’s two laws of electrolysis: (i) First Law: The amount of chemical reaction which occurs at any electrode during elecRead more
After his extensive investigations on electrolysis of solutions and melts of electrolytes, Faraday published his results during 1833-34 in the form of the following well known Faraday’s two laws of electrolysis:
(i) First Law: The amount of chemical reaction which occurs at any electrode during electrolysis by a current is proportional to the quantity of electricity passed through the electrolyte (solution or melt).
(ii) Second Law: The amounts of different substances liberated by the same quantity of electricity passing through the electrolytic solution are proportional to their chemical equivalent weights (Atomic Mass of Metal ÷ Number of electrons required to reduce the cation).
In the primary batteries, the reaction occurs only once and after use over a period of time battery becomes dead and cannot be reused again. The most familiar example of this type is the dry cell (known as Leclanche cell after its discoverer) which is used commonly in our transistors and clocks.
In the primary batteries, the reaction occurs only once and after use over a period of time battery becomes dead and cannot be reused again. The most familiar example of this type is the dry cell (known as Leclanche cell after its discoverer) which is used commonly in our transistors and clocks.
Who is the author of Raghuvansh epic?
The epic poem "Raghuvansh" was written by the ancient Indian poet Kalidasa. Kalidasa is one of the most celebrated poets and playwrights in classical Sanskrit literature. "Raghuvansh" narrates the history of the Raghu dynasty, specifically focusing on the life and exploits of King Dilipa and his sucRead more
The epic poem “Raghuvansh” was written by the ancient Indian poet Kalidasa. Kalidasa is one of the most celebrated poets and playwrights in classical Sanskrit literature. “Raghuvansh” narrates the history of the Raghu dynasty, specifically focusing on the life and exploits of King Dilipa and his successors, leading up to the birth and reign of Lord Rama. Kalidasa is also renowned for other significant works such as “Shakuntala” and “Meghaduta.”
See lessWhat is the role of germ cells in the process of inheriting genes from parents?
Germ cells, specifically sperm and egg cells, play a crucial role in the process of inheriting genes from parents. These cells are specialized for sexual reproduction and carry half the genetic material of a somatic cell. During fertilization, a sperm cell from the father fuses with an egg cell fromRead more
Germ cells, specifically sperm and egg cells, play a crucial role in the process of inheriting genes from parents. These cells are specialized for sexual reproduction and carry half the genetic material of a somatic cell. During fertilization, a sperm cell from the father fuses with an egg cell from the mother, resulting in the formation of a zygote. This zygote contains a complete set of genes, with half contributed by each parent. Germ cells thus serve as the vehicles for transmitting genetic information, ensuring the inheritance of traits from both maternal and paternal sources in the offspring.
See lessHow do germ cells generate a single set of genes from the usual two copies found in other body cells?
Germ cells generate a single set of genes from the usual two copies found in other body cells through a specialized cell division process called meiosis. In meiosis, germ cells undergo two consecutive divisions, resulting in the production of four haploid cells, each with half the usual number of chRead more
Germ cells generate a single set of genes from the usual two copies found in other body cells through a specialized cell division process called meiosis. In meiosis, germ cells undergo two consecutive divisions, resulting in the production of four haploid cells, each with half the usual number of chromosomes. This reduction in chromosome number ensures that when the sperm (from the father) and egg (from the mother) fuse during fertilization, the resulting zygote has the correct diploid number of chromosomes. This process ensures genetic diversity and the transmission of a unique combination of genes to the offspring.
See lessWhat do you mean by electrical conductance?
Electrical conductance (or electrical conductivity) is the ability of a solution to conduct an electrical current. By inserting two electrodes into distilled water a direct current does not flow through, but if the solution contains electrolytes the electrical current flows through the salt solutionRead more
Electrical conductance (or electrical conductivity) is the ability of a solution to conduct an electrical current. By inserting two electrodes into distilled water a direct current does not flow through, but if the solution contains electrolytes the electrical current flows through the salt solution.
See lessWhat do you mean by ionic conductance?
The conductance of electricity by ions present in the solutions is called electrolytic or ionic conductance.
The conductance of electricity by ions present in the solutions is called electrolytic or ionic conductance.
See lessWhat is molar conductivity?
Molar Conductivity is defined as the Conductivity of the solution of an electrolyte divided by the Molar concentration of the electrolyte, and so gauges the efficiency with which an allotted electrolyte conducts electricity in solution.
Molar Conductivity is defined as the Conductivity of the solution of an electrolyte divided by the Molar concentration of the electrolyte, and so gauges the efficiency with which an allotted electrolyte conducts electricity in solution.
See lessWhat is Kohlrausch law of independent migration of ions?
Kohlrausch's law of independent migration of ions states that the limiting molar conductivity of an electrolyte can be represented as the sum individual contributions of its cations & anions. The conductivity of a solution decrease with dilution because less ions are present for conduction.
Kohlrausch’s law of independent migration of ions states that the limiting molar conductivity of an electrolyte can be represented as the sum individual contributions of its cations & anions. The conductivity of a solution decrease with dilution because less ions are present for conduction.
See lessWhat is Kohlrausch law and its two applications?
The two applications of Kohlrausch’s law are, (i) the molar conductivity of weak electrolytes at infinite dilution can be calculated using Kohlrausch’s law. (ii) degree of dissociation of weak electrolyte (like acetic acid) at a given concentration can be calculated.
The two applications of Kohlrausch’s law are,
See less(i) the molar conductivity of weak electrolytes at infinite dilution can be calculated using Kohlrausch’s law. (ii) degree of dissociation of weak electrolyte (like acetic acid) at a given concentration can be calculated.
What are Faraday’s Laws of Electrolysis?
After his extensive investigations on electrolysis of solutions and melts of electrolytes, Faraday published his results during 1833-34 in the form of the following well known Faraday’s two laws of electrolysis: (i) First Law: The amount of chemical reaction which occurs at any electrode during elecRead more
After his extensive investigations on electrolysis of solutions and melts of electrolytes, Faraday published his results during 1833-34 in the form of the following well known Faraday’s two laws of electrolysis:
See less(i) First Law: The amount of chemical reaction which occurs at any electrode during electrolysis by a current is proportional to the quantity of electricity passed through the electrolyte (solution or melt).
(ii) Second Law: The amounts of different substances liberated by the same quantity of electricity passing through the electrolytic solution are proportional to their chemical equivalent weights (Atomic Mass of Metal ÷ Number of electrons required to reduce the cation).
What is a primary battery?
In the primary batteries, the reaction occurs only once and after use over a period of time battery becomes dead and cannot be reused again. The most familiar example of this type is the dry cell (known as Leclanche cell after its discoverer) which is used commonly in our transistors and clocks.
In the primary batteries, the reaction occurs only once and after use over a period of time battery becomes dead and cannot be reused again. The most familiar example of this type is the dry cell (known as Leclanche cell after its discoverer) which is used commonly in our transistors and clocks.
See less