Atmosphere
Atoms
Celestial Bodies
Circuits
电路 (diàn lù)
电路 (Diànlù)
电路
通信系统Pdf
二极管
地球科学
电荷
电
Electricity
电磁波
电磁
静电学
能量
流体
武力
Force
摩擦
万有引力
热
动力学理论
光
磁性
运动
自然资源
核物理学
光学
Optics
Oscillation
Pressure
Quantum physics
Radioactivity
Scalars and Vectors
Scientific Method
Semiconductors
Solid Deformation
Sound
System of Particles and Rotational Dynamics
Thermal Properties of Matter
Thermodynamics
Units and measurements
Waves
Work, Energy and Power
Physics Experiments
Atoms
Celestial Bodies
- Space Travel Equipment
- Stars
- Rotation and Revolution
- Relation Between Escape Velocity And Orbital Velocity
- Dwarf Planets
- Difference Between Solar Eclipse And Lunar Eclipse
- Difference Between Equinox And Solstice
- The Escape Velocity Of Earth
- Solar System
- Difference Between Stars And Planets
- Difference Between Asteroid And Meteoroid
- Constellations
Circuits
电路 (diàn lù)
电路 (Diànlù)
电路
通信系统Pdf
二极管
地球科学
电荷
电
- 类型的齿轮
- 电子产品在日常生活中
- 类型的汽车
- 类型的直流电机
- 类型的交流电机
- 晶体管工作
- 转矩电流环
- 电动机
- 电阻温度依赖性
- Rms值交流电
- 电抗和阻抗
- 相量表示法交流
- 平行板电容器
- 焦耳定律
- 电力
- 磁场对载流导线的影响
- 电流密度
- 导体绝缘体
- 导电
- 碳电阻器
- 直流发电机
- 类型的发电机
- 类型的电流
- 直流发电机类型
- Torque On Dipole
- 电流的热效应
- 电动发电机
- 静电
- 电阻率不同的材料
- 电场的物理意义
- 介电常数和磁导率
- 电能和权力
- 电流在导体
- 电动汽车
- 位移电流
- 电阻与电阻率之间的差异
- 电动机和发电机之间的区别
- 接地和接地之间的区别
- 电流线圈
- 水的电导率
- 导电的液体
Electricity
电磁波
电磁
静电学
能量
- 能量
- 能源类型
- 热能
- 太阳能项目
- 太阳能汽车
- Ev和Joule之间的关系
- 动能和完成的功
- 能量转换
- 一维和二维的弹性和非弹性碰撞
- 常规能源和非常规能源
- 太阳能炊具
- 潮汐能
- 能源
- 太阳能和光伏电池
- 动能与动量的关系
- 热量与焦耳的关系
- 能源及其对环境的影响
- 能源考虑
流体
武力
Force
摩擦
万有引力
热
动力学理论
光
- 镜面反射漫反射
- 人眼
- 结构人眼功能
- 阴影的形成
- 反射和折射之间的区别
- 相干源
- 光的透射、吸收和反射
- 透明半透明和不透明
- 阳光白色
- 单狭缝衍射
- 拉曼散射
- 粒子自然光光子
- 真实图像与虚拟图像的区别
- 衍射和干涉的区别
磁性
运动
- 运输历史记录
- 速度-时间图
- 旋转动能
- 刚体和刚体动力学
- 扭矩和速度之间的关系
- 粒子的直线运动
- 周期性运动
- 动量和惯性之间的差异
- 动量守恒
- 运动测量类型
- 扭矩
- 慢速和快速运动
- 滚动
- 刚体平移运动和旋转运动
- 相对速度
- 径向加速度
- 速度和速度之间的区别
- 动力学和运动学的区别
- 连续性方程
- 线性动量守恒
自然资源
核物理学
光学
Optics
- Reflection of Light and Laws of Reflection
- Concave Lens
- Total Internal Reflection
- Thin Lens Formula For Concave And Convex Lenses
- Spherical Mirror Formula
- Resolving Power Of Microscopes And Telescopes
- Refractive Index
- Refraction Of Light
- Refraction Light Glass Prism
- Reflection On A Plane Mirror
- Reflection Lateral Inversion
- Rainbow
- Photometry
- Difference Between Simple And Compound Microscope
- Difference Between Light Microscope And Electron Microscope
- Concave Convex Mirror
- Toric Lens
- The Lens Makers Formula
- Simple Microscope
Oscillation
Pressure
- Thrust Pressure
- Relation Between Bar And Pascal
- Regelation
- Sphygmomanometer
- Relation Between Bar And Atm
- Difference Between Stress And Pressure
Quantum physics
- Quantum physics
- Rydberg Constant
- Electron Spin
- Casimir Effect
- Relativity
- Quantum Mechanics
- Electrons And Photons
Radioactivity
- Relation Between Beta And Gamma Function
- Radioactivity Beta Decay
- Radioactive Decay
- Stefan Boltzmann Constant
- Radioactivity Gamma Decay
- Radioactivity Alpha Decay
- Radiation Detector
Scalars and Vectors
- Scalars and Vectors
- Triangle Law Of Vector Addition
- Scalar Product
- Scalar And Vector Products
- Difference Between Scalar And Vector
Scientific Method
- Scientific Methods
- Safety Measures Technology
- Difference Between Science And Technology
- Scientific Investigation
Semiconductors
- Semiconductor Devices
- Junction Transistor
- Semiconductor Diode
- Difference Between Npn And Pnp Transistor
Solid Deformation
- Solid State Physics
- Solid Deformation
- Stress
- Shear Modulus Elastic Moduli
- Relation Between Elastic Constants
- Elastic Behavior Of Solids
- Tensile Stress
- Stress And Strain
- Shearing Stress
- Elastomers
- Elastic Behaviour Of Materials
- Bulk Modulus Of Elasticity Definition Formula
Sound
- Sound waves
- Timbre
- Speed Of Sound Propagation
- Sound Waves Need Medium Propagation
- Sound Reflection
- Sound Produced Humans
- Doppler Shift
- Difference Between Sound Noise Music
- The Human Voice How Do Humans Create Sound With Their Vocal Cord
- Sound Vibration Propagation Of Sound
- Sound Produced Vibration Object
- Reverberation
- Doppler Effect
System of Particles and Rotational Dynamics
Thermal Properties of Matter
- Thermal Properties of Materials
- Thermal Stress
- Thermal Expansion Of Solids
- Thermal Conductivity Of Metals
Thermodynamics
- Statistical Physics
- SI Units List
- Statistical Mechanics
- Reversible Irreversible Processes
- Carnots Theorem
- Temperature
- Kelvin Planck Statement
- Difference between Isothermal and Adiabatic Processes
Units and measurements
- Density of Air
- The Idea Of Time
- Difference Between Pound And Kilogram
- Difference Between Mass And Volume
- Dimensional Analysis
- Density Of Water
- Time Measurement
- Standard Measurement Units
- Relation Between Kg And Newton
- Relation Between Density And Temperature
- Difference Between Mass And Weight
Waves
- Space Wave Propagation
- Sharpness Of Resonance
- Relation Between Group Velocity And Phase Velocity
- Relation Between Amplitude And Frequency
- Periodic Function
- P Wave
- Destructive Interference
- Transverse Waves
- Travelling Wave
- Standing Wave Normal Mode
- S Waves
- Relation Between Frequency And Velocity
- Reflection Of Waves
- Phase Angle
- Period Angular Frequency
Work, Energy and Power
- Derivation Of Work Energy Theorem
- Conservation Of Mechanical Energy
- Relation Between Work And Energy
- Destruction Caused Cyclones
Physics Experiments
- Determine Resistance Plotting Graph Potential Difference versus Current
- To find the weight of a given Body using Parallelogram Law of Vectors
- To study the variation in volume with pressure for a sample of air at constant temperature by plotting graphs between p and v
- To measure the thickness of sheet using Screw Gauge
- To find the value of V for different U values of Concave Mirror find Focal Length
- To find the Surface Tension of Water by Capillary Rise Method
- To find the Resistance of given wire using Metre Bridge and hence determine the Resistivity of its Material Experiment
- Determine Mass of Two Different Objects Using Beam Balance
- Tracing the path of the rays of light through a glass Prism
- Tracing path of a ray of light passing through a glass slab
- Tornado Bottle
- To find image distance for varying object distances of a convex lens with ray diagrams
- To find force constant of helical spring by plotting a graph between load and extension
- To find focal length of concave lens using convex lens
- To find effective length of seconds pendulum using graph
- To find downward force along inclined plane on a roller due to gravitational pull of the earth and its relationship with the angle of inclination
- To draw the IV characteristic curve for p n junction in forward and reverse bias
- To determine Young’s modulus of elasticity of the material of a given wire
- To determine the internal resistance of a given primary cell using a potentiometer experiment
- To determine the coefficient of viscosity of given viscous liquid by measuring terminal velocity of given spherical body
- To determine specific heat capacity of given solid by method of mixtures
- To determine radius of curvature of a given spherical surface by a Spherometer
- Scope and Excitement of Physics
- Rocket science
- Relationship between frequency and length of wire under constant tension using Sonometer
- To determine equivalent resistance of resistors when connected in series and in parallel
- To convert the given galvanometer of known resistance and figure of merit into a voltmeter of desired range and to verify the same experiment
- To determine minimum deviation for given prism by plotting graph between angle of incidence and angle of deviation
- To compare the emf of two given primary cells using potentiometer experiment
电阻器串并联
Introduction
电流和电压电平通过电路中的电阻器来降低。在大多数电路中,发现有一个以上的电阻器有助于限制电路内的电荷流。有两种最简单的电阻器组合,即并联和串联。这两个电阻器的组合非常重要,因为整个电荷流都与此整体相连。
Importance of a combination circuit
组合电路是串联和并联电阻器的重要组成部分。电阻器被称为欧姆器件,其中V=IR(Hope<i>等人
Figure 1: Presentation of resistor series-parallel
适当的电路通常由不同的导体组成,如开关、电源、电阻器、负载和导线。在电路中,起点和终点是相同的。就像电路中的导体一样,使用铜线。开关系统总是可用的,有助于建立和断开电路内的连接。作为一种无源元件,电阻器只消耗功率而不发电(Tsukushi,Ono&;Wada,2020)。电能通常在电路中消耗,并最终转化为其他重要形式的能量,如热、光等。例如负载、风扇和光很重要。
Resistors in series: Analysis
在某些电路中,在重要电阻器的帮助下,相同数量的电流会流动。这种类型的电流出现在电路中,被称为串联电路。在串联电路中,与每个重要电阻器相关的电压本质上是不同的(Morais等人,2020)。在这种类型的连接中,如果电阻器出现故障和断裂,整个电路系统将闭合和关闭。与并联电路相比,串联电阻器的设计和组成本质上很简单。
Figure 2: Resistors, connected in a series
在识别特定系统的总电阻的情况下,将添加所有相关的电阻值。例如,上图中的总电阻值可能会有所帮助。根据该图,假设R1、R2,R3和R4的值分别为100Ω、120Ω、130Ω和150Ω。该串联组合的总电阻值为(100+120+130+150)=500Ω。
Resistors in parallel: Analysis
在电路的电压在所有电阻器上相同的时间内,电路以并联方式连接。在并联电路中,电流首先被分支到不同的部分,然后再次在单个公共点重新组合(Wang,Cheng&;Fong,2018)。在并联电路中,任何部件和电阻器都可以很容易地断开和连接。在这个过程中,并联电路的其他元件不受影响。
Figure 3: Resistors connected in parallel
并联电阻器的值可以通过以下一个简单的公式来计算。
$$mathrm{This:is:1/Rtotal:=:1/R_1:+:1/R_2:+:…:+:1/R_n。}$$
根据这个公式,可以给出电气服务中的电阻总值。
Kirchhoff’s law of Current
识别并联和串联电阻器的重要分支对于了解每个电路的作用很重要。在改变任何特定电阻器的值之前,也要确定等效电阻器(Quynh等人2019)。电阻桥网络在这方面也发挥着重要作用。Kirchhoff的电压定律和电流定律是帮助用户处理电阻器的两个重要部分(Islam等人,2020)。根据Kirchoff的说法,电流总和在关节的某个点保持为零。
Figure 4: Series parallel resistor circuit
发现电动势的总和和电压在闭合电路中下降,并且也保持为零。根据KCL(Kirchoff电流定律),所有类型的输入电流本质上都是正的。每种输出电流本质上都是负的。根据Kirchoff电压定律,每个电压的总和等于特定回路周围的可用电压。在闭合网络中,电压下降并保持为零。
Conclusion
在几乎每一个电路中,各种各样的元件都是一体连接的。以串联和并联的方式,开发了电阻网络。更关键和复杂的电阻网络的产生取决于不同的回路。这种类型的电路被称为具有固定电阻器的电路。电阻器不存在于任何形式的隔离中。具有各种电阻器、连接不同电气组合的较大电路是这种组合的重要要求。
FAQs
问题1.Kirchoff律师事务所的财产名称是什么
Ans.Kirchoff的性质也被称为能量守恒。并联或串联电阻器内每个回路中的每个电压之和等于零。
Q2.用什么公式可以测量串联组合中的总电阻
Ans.串联组合中总电阻的计算通过公式$mathrm{R_{total}=R_1+R_2++R_n.}美元在这个公式中,N是表示电阻器总数的指标。
Q3.电阻器在电路中的主要用途是什么
电阻器在控制电路内的电流方面起着重要作用。这种无源器件是电气器件的重要组成部分。
Q4.电路中最重要的部件是什么
电阻器、开关、导线、负载和电源是电路中最重要的部件。这些部件构成了一个有用且可正确使用的电路。