The base direct current (DC) in semiconductor devices generally increases with temperature. As temperature rises, the thermal energy allows more charge carriers to become available, which enhances conductivity and increases current flow. However, excessive temperature can lead to increased resistance and potential device failure, so there is a limit to this trend. In contrast, for some materials, such as metals, resistance typically increases with temperature, which can decrease the current if voltage remains constant.
Increase, decrease, or remove the load <<>> Change the voltage and the current will also change in direct proportion, Ohms law.
If voltage increases when current remains constant then resistance must also increase. Ohm's Law: Voltage = Current times Resistance.
.The magnitude of the voltage and current of both the armature and shunt field coil. To decrease the speed when the load is increasing then increase the shunt field current while decreasing the armature voltage or current. To increase the speed while the load is increasing then increase the armature current while decreasing the shunt field current. The decreasing and increasing of these currents and voltages can be done by connecting a variable resistor in series or parallel with each of the armature and/or shunt field coil.
The output of a solar panel is direct current. Transformers need alternating current to operate.
A resistor will not change its value, unless the voltage exceeds the designed power capacity of the resistor. As the voltage increases, the current will increase, if the current gets too high it will cause the temperature of the resistor to increase, if the temperature exceeds the power rating of the resistor then the resistance WILL change. If it goes too High in temperature the resistor will open and current will no longer flow. A resistor is used to control current, and indirectly the .voltage depending on the application. Hope This helps. You must use Ohms Law to see the relationship.
Increase, decrease, or remove the load <<>> Change the voltage and the current will also change in direct proportion, Ohms law.
Transformers increase and decrease voltage as needed. PLATO
As we know , resistance(R) is directly proportional to length(L) of conductor and resistence(R) is inversely proportional to current (I) and I=nAqv (v is drift velocity) So , if we decrease the length of the conductor , resistance of the conductor will decrease and current(I) will increase and drift velocity of free electrons will increase . And as we know resistance and temperature have direct relation so , by decreasing the temperature resistence will decrease and current will increase . So drift velocity will increase .
Pressure and volume are inversely related in a system at constant temperature (Boyle's Law). As pressure increases, volume decreases and vice versa. This relationship is direct in the sense that an increase in pressure leads to a decrease in volume, and a decrease in pressure leads to an increase in volume.
The sensation of heat is a direct result of an increase in temperature. Temperature is a direct result of the increase in average kinetic energy of molecules.
Direct variation
Are in direct proportion
Increase in resistance means that when the resistance of the substance increase by application of some external sources like temperature etc. or when the flow of current through the substance gradually decreases then the resistances increases. Vice versa in case for decrease in resistance.Alternative AnswerResistance is determined by the length, cross-sectional area, and resistivity of a conductor. Resistivity is, in turn, affected by temperature -so temperature indirectly affects resistance.These are the only factors that affect resistance. Voltage and current have no direct effect whatsoever on resistance. Current can affect resistance indirectly if it causes the conductor's temperature to increase.For AC circuits, 'skin effect', due to frequency, causes the current to flow towards the surface of a conductor which acts to reduce the effective cross-sectional area of that conductor. So, frequency can also indirectly affect resistance.
Alternating current is more effective for long-distance travel than direct current because it can be easily converted to higher voltages, which reduces energy loss during transmission over long distances. This is due to the ability of alternating current to use transformers to increase voltage and decrease current, resulting in lower energy losses compared to direct current.
Direct expenses increase or decrease based on the rate of production. For example raw material costs increase as more products are made.
The direct cause of a substance's temperature increase is the input of thermal energy, typically in the form of heat. This added energy increases the kinetic energy of the substance's molecules, causing them to move faster and leading to an increase in temperature.
As temperature increases, the volume of a substance typically increases due to the particles moving more rapidly and spreading out. This relationship is described by the ideal gas law equation, which shows that temperature and volume are directly proportional for ideal gases.