50101. When a load resistance is removed from the output of a voltage divider circuit, the current drawn from the source
50102. A certain circuit is composed of two parallel resistors. The total resistance is 1,403 . One of the resistors is 2 k. The other resistor value is
50103. The parallel combination of a 470 resistor and a 680 resistor is in series with the parallel combination of four 2 k resistors. The total resistance is
50104. A 12 k resistor, a 15 k resistor, and a 22 k resistor are in series with two 10 k resistors that are in parallel. The source voltage is 75 V. Current through the 15 k resistor is approximately
50105. A 6 V battery output is divided down to obtain two output voltages. Three 2.2 k resistors are used to provide the two taps. The two output voltages are
50106. Two 3.3 k resistors are in series and this series combination is in parallel with a 4.7 k resistor. The voltage across one of the 3.3 k resistors is 12 V. The voltage across the 4.7 k resistor is
50107. A balanced Wheatstone bridge consists of an RV of 3,500 , an R2 of 200 , and an R3 of 680 . The value of RUNK is
50108. In a certain five-step R/2R ladder network, the smallest resistor value is 1 k. The largest value is
50109. A voltage divider consists of two 100 k resistors and a 12 V source. What will the output voltage be if a load resistor of 1 M is connected to the output?
50110. The parallel combination of a 470 resistor and a 1.2 k resistor is in series with the parallel combination of three 3 k resistors. A 200 V source is connected across the circuit. The resistor with the most current has a value of
50111. A smaller-value load resistor will cause the output voltage to change more than a larger-value one.
50112. Using the current-divider formula, you can find the current in any branch of a series-parallel circuit.
50113. To derive 18 V and 12 V from a 24 V supply requires a voltage divider with three taps.
50114. A Wheatstone bridge is often shown in a "diamond" configuration.
50115. A resistor ladder network is a special type of series-parallel circuit.
50116. The higher the range setting, the less the internal resistance and the greater the load effect of the voltmeter on a circuit.
50117. Using Kirchhoff's voltage law, you can find the voltages across certain parts of a series-parallel circuit.
50118. A Wheatstone bridge consists of four resistors in parallel.
50119. Two equal-value resistors in series will divide the source voltage equally.
50120. A galvanometer is a meter that measures small amounts of voltage.
50121. The internal resistance of a 20,000 ohm/volt voltmeter set on its 5 V range is
50122. Two 1.2 k resistors are in series and this series combination is in parallel with a 3.3 k resistor. The total resistance is
50123. The output of a certain voltage divider is 12 V with no load. When a load is connected, the output voltage
50124. A certain voltage divider consists of two 12 k resistors in series. Which of the following load resistors will have the most effect on the output voltage?
50125. A voltage divider consists of two 68 k resistors and a 24 V source. The unknown output voltage is
50126. Which among the following genera produce D lactate
50127. Which among the following pathogens is not mentioned in the microbiological parameters of butter as per FSSAI
50128. ----------is the major unsaturated fatty acid present in milk fat:
50129. Industrial production of citric acid is achieved by the inhibition of ------------enzyme in the TCA cycle
50130. The velocity of raw milk in pipes should not be greater than -----------------m/s to avoid damage to the fat globules
50131. In a Y-Y source/load configuration, the
50132. In a Y-connected circuit, the magnitude of each line current is
50133. A constant load power means a uniform conversion of
50134. A two-phase generator is connected to two 90 load resistors. Each coil generates 120 V ac. A common neutral line exists. How much current flows through the common neutral line?
50135. A single-phase sinusoidal voltage of 120 V is connected to a 90 load. Current in the circuit is
50136. A three-phase generator is connected to three 90 load resistors. Each coil generates 120 V ac. A common neutral line exists. How much current flows through the common neutral line?
50137. Compare the total copper cross sections in terms of current-carrying capacity for a single-phase and a three-phase 120 V system with effective load resistance of 15 .
50138. If in a Y-connected ac generator, each phase voltage has a magnitude of 90 VRMS, what is the magnitude of each line voltage?
50139. Polyphase generators produce simultaneous multiple sinusoidal voltages that are separated by
50140. In a balanced three-phase load, each phase has
50141. In a certain Y-Y system, the source phase currents each have a magnitude of 9 A. The magnitude of each load current for a balanced load condition is
50142. A three-phase -connected generator is driving a balanced load such that each phase current is 12 A in magnitude. When I θa = 12 30° A, what are the polar expressions for the other phase currents?
50143. In a Y-connected circuit, between each line voltage and the nearest phase voltage, there is a phase angle of
50144. The most common type of ac motor is the
50145. In a Y-connected source feeding a -connected load,
50146. In a -connected generator, all of the phase voltages are
50147. In a -connected generator, there is a 120° difference between each line current and the nearest phase current.
50148. Power is measured in a three-phase load by using an ammeter.
50149. Polyphase is characterized by two or more sinusoidal voltages, each having a different phase angle.
50150. In a Y-connected generator, there is a 120° difference between each line voltage and the nearest phase voltage.