The correct answer is Ohm's law (option D). Ohm's law describes the fundamental relationship between voltage (potential difference), current, and resistance in an electrical circuit. According to Ohm's law, when a conductor has a constant resistance, the potential difference (voltage) between its enRead more
The correct answer is Ohm’s law (option D). Ohm’s law describes the fundamental relationship between voltage (potential difference), current, and resistance in an electrical circuit. According to Ohm’s law, when a conductor has a constant resistance, the potential difference (voltage) between its ends is directly proportional to the current flowing through it. This means that if the current increases, the voltage increases proportionally, and vice versa, under constant temperature conditions. Ohm’s law is essential for designing and analyzing electrical circuits, determining the proper operation of components like resistors, and calculating the power dissipation in circuits. It provides a foundational principle for understanding how electrical parameters interact and influence each other in various applications, from household wiring to complex industrial electronics. Understanding Ohm’s law is crucial for engineers and technicians in ensuring the efficient and safe operation of electrical systems.
The correct answer is in parallel (option C). Household electrical appliances like fans and bulbs are generally installed in parallel. In a parallel circuit, each appliance has its own separate connection to the power supply. This configuration allows each appliance to operate independently of the oRead more
The correct answer is in parallel (option C). Household electrical appliances like fans and bulbs are generally installed in parallel. In a parallel circuit, each appliance has its own separate connection to the power supply. This configuration allows each appliance to operate independently of the others. If one appliance is turned off or malfunctions, the others remain unaffected and continue to function normally. This setup is convenient for household applications because it provides flexibility in operation and maintenance. It also ensures that the failure of one appliance does not affect the operation of others, enhancing reliability and convenience. Parallel installation is common in homes to accommodate the diverse usage patterns and preferences of occupants, allowing different appliances to be controlled and used independently as needed.
The correct answer is Ohm (Ω) (option D). Resistance, a fundamental property in electricity, is measured in ohms (Ω). This unit is named after the German physicist Georg Simon Ohm, who extensively studied electrical circuits and formulated Ohm's law. Resistance represents how much a material or deviRead more
The correct answer is Ohm (Ω) (option D). Resistance, a fundamental property in electricity, is measured in ohms (Ω). This unit is named after the German physicist Georg Simon Ohm, who extensively studied electrical circuits and formulated Ohm’s law. Resistance represents how much a material or device impedes the flow of electric current. It is essential in designing circuits to control current flow and manage power dissipation. The ohm is universally recognized as the unit for resistance in the International System of Units (SI), providing a standardized measure across scientific and engineering disciplines. Understanding resistance is fundamental for optimizing the performance of electronic components, designing efficient electrical networks, and ensuring the safe operation of electrical devices by controlling current levels appropriately.
The correct answer is 0.25A (option B). Ohm's law dictates that the current flowing through a conductor is directly proportional to the voltage applied across it and inversely proportional to its resistance. In this case, with a resistance of 440 ohms and a voltage of 110 volts, the resulting currenRead more
The correct answer is 0.25A (option B). Ohm’s law dictates that the current flowing through a conductor is directly proportional to the voltage applied across it and inversely proportional to its resistance. In this case, with a resistance of 440 ohms and a voltage of 110 volts, the resulting current is 0.25 amperes. This relationship is essential in designing and analyzing electrical circuits, allowing engineers to predict current flow based on known voltage and resistance values without needing to use the formula explicitly. Understanding Ohm’s law helps ensure efficient and safe operation of electrical systems by providing insights into how different components interact under varying conditions of voltage and resistance.
The correct answer is zero (option B). Kirchhoff's current law (KCL) states that the algebraic sum of currents meeting at a point (node) in an electrical circuit is always zero. This fundamental principle arises from the conservation of electric charge, where any net flow of charge into or out of aRead more
The correct answer is zero (option B). Kirchhoff’s current law (KCL) states that the algebraic sum of currents meeting at a point (node) in an electrical circuit is always zero. This fundamental principle arises from the conservation of electric charge, where any net flow of charge into or out of a node must be zero. Therefore, the sum of currents flowing into the node (considering positive and negative directions) equals the sum of currents flowing out of the node. This law is essential for analyzing and designing electrical circuits, ensuring that current distribution is correctly accounted for at every junction. It allows engineers to predict and verify current flows through complex circuits, facilitating the reliable operation of electrical systems and the troubleshooting of circuit faults based on current measurements.
The potential difference between the ends of a conductor is proportional to the current flowing in it. This law is
The correct answer is Ohm's law (option D). Ohm's law describes the fundamental relationship between voltage (potential difference), current, and resistance in an electrical circuit. According to Ohm's law, when a conductor has a constant resistance, the potential difference (voltage) between its enRead more
The correct answer is Ohm’s law (option D). Ohm’s law describes the fundamental relationship between voltage (potential difference), current, and resistance in an electrical circuit. According to Ohm’s law, when a conductor has a constant resistance, the potential difference (voltage) between its ends is directly proportional to the current flowing through it. This means that if the current increases, the voltage increases proportionally, and vice versa, under constant temperature conditions. Ohm’s law is essential for designing and analyzing electrical circuits, determining the proper operation of components like resistors, and calculating the power dissipation in circuits. It provides a foundational principle for understanding how electrical parameters interact and influence each other in various applications, from household wiring to complex industrial electronics. Understanding Ohm’s law is crucial for engineers and technicians in ensuring the efficient and safe operation of electrical systems.
See lessFans, bulbs etc. installed in houses are installed
The correct answer is in parallel (option C). Household electrical appliances like fans and bulbs are generally installed in parallel. In a parallel circuit, each appliance has its own separate connection to the power supply. This configuration allows each appliance to operate independently of the oRead more
The correct answer is in parallel (option C). Household electrical appliances like fans and bulbs are generally installed in parallel. In a parallel circuit, each appliance has its own separate connection to the power supply. This configuration allows each appliance to operate independently of the others. If one appliance is turned off or malfunctions, the others remain unaffected and continue to function normally. This setup is convenient for household applications because it provides flexibility in operation and maintenance. It also ensures that the failure of one appliance does not affect the operation of others, enhancing reliability and convenience. Parallel installation is common in homes to accommodate the diverse usage patterns and preferences of occupants, allowing different appliances to be controlled and used independently as needed.
See lessThe unit of resistance is
The correct answer is Ohm (Ω) (option D). Resistance, a fundamental property in electricity, is measured in ohms (Ω). This unit is named after the German physicist Georg Simon Ohm, who extensively studied electrical circuits and formulated Ohm's law. Resistance represents how much a material or deviRead more
The correct answer is Ohm (Ω) (option D). Resistance, a fundamental property in electricity, is measured in ohms (Ω). This unit is named after the German physicist Georg Simon Ohm, who extensively studied electrical circuits and formulated Ohm’s law. Resistance represents how much a material or device impedes the flow of electric current. It is essential in designing circuits to control current flow and manage power dissipation. The ohm is universally recognized as the unit for resistance in the International System of Units (SI), providing a standardized measure across scientific and engineering disciplines. Understanding resistance is fundamental for optimizing the performance of electronic components, designing efficient electrical networks, and ensuring the safe operation of electrical devices by controlling current levels appropriately.
See lessThe resistance of a conductor is 440 ohms. If it is connected to a 110-volt source, how much current will flow through it?
The correct answer is 0.25A (option B). Ohm's law dictates that the current flowing through a conductor is directly proportional to the voltage applied across it and inversely proportional to its resistance. In this case, with a resistance of 440 ohms and a voltage of 110 volts, the resulting currenRead more
The correct answer is 0.25A (option B). Ohm’s law dictates that the current flowing through a conductor is directly proportional to the voltage applied across it and inversely proportional to its resistance. In this case, with a resistance of 440 ohms and a voltage of 110 volts, the resulting current is 0.25 amperes. This relationship is essential in designing and analyzing electrical circuits, allowing engineers to predict current flow based on known voltage and resistance values without needing to use the formula explicitly. Understanding Ohm’s law helps ensure efficient and safe operation of electrical systems by providing insights into how different components interact under varying conditions of voltage and resistance.
See lessThe algebraic sum of the currents meeting at a point in a circuit is
The correct answer is zero (option B). Kirchhoff's current law (KCL) states that the algebraic sum of currents meeting at a point (node) in an electrical circuit is always zero. This fundamental principle arises from the conservation of electric charge, where any net flow of charge into or out of aRead more
The correct answer is zero (option B). Kirchhoff’s current law (KCL) states that the algebraic sum of currents meeting at a point (node) in an electrical circuit is always zero. This fundamental principle arises from the conservation of electric charge, where any net flow of charge into or out of a node must be zero. Therefore, the sum of currents flowing into the node (considering positive and negative directions) equals the sum of currents flowing out of the node. This law is essential for analyzing and designing electrical circuits, ensuring that current distribution is correctly accounted for at every junction. It allows engineers to predict and verify current flows through complex circuits, facilitating the reliable operation of electrical systems and the troubleshooting of circuit faults based on current measurements.
See less