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Effect Of Temperature On Resistance MDCAT MCQs with Answers

Effect Of Temperature On Resistance MDCAT MCQs

Welcome to the Effect Of Temperature On Resistance MDCAT MCQs with Answers. In this post, we have shared Effect Of Temperature On Resistance Multiple Choice Questions and Answers for PMC MDCAT 2024. Each question in MDCAT Physics offers a chance to enhance your knowledge regarding Effect Of Temperature On Resistance MCQs in this MDCAT Online Test.

Effect Of Temperature On Resistance MDCAT MCQs Test Preparations

As the temperature of a metallic conductor increases, its resistance generally:
a) Increases
b) Decreases
c) Remains constant
d) Becomes zero

Answer
a) Increases

The temperature coefficient of resistance for most metals is:
a) Positive
b) Negative
c) Zero
d) Undefined

Answer
a) Positive

For a semiconductor, as temperature increases, the resistance generally:
a) Decreases
b) Increases
c) Remains constant
d) Becomes zero

Answer
a) Decreases

Which of the following materials has a negative temperature coefficient of resistance?
a) Carbon
b) Copper
c) Silver
d) Aluminum

Answer
a) Carbon

The resistance of a thermistor decreases with:
a) Increasing temperature
b) Decreasing temperature
c) Increasing current
d) Increasing voltage

Answer
a) Increasing temperature

What happens to the resistance of an insulator as temperature increases?
a) It increases
b) It decreases
c) It remains constant
d) It becomes zero

Answer
a) It increases

The resistance of a metal wire at 100°C compared to its resistance at 20°C is likely to be:
a) Higher
b) Lower
c) The same
d) Zero

Answer
a) Higher

In a material with a high positive temperature coefficient of resistance, a small temperature change will:
a) Significantly change the resistance
b) Have little effect on the resistance
c) Cause the resistance to become negative
d) Keep the resistance constant

Answer
a) Significantly change the resistance

Which of the following is true for a negative temperature coefficient of resistance?
a) The resistance decreases with increasing temperature
b) The resistance increases with increasing temperature
c) The resistance remains constant with temperature
d) The resistance becomes zero with increasing temperature

Answer
a) The resistance decreases with increasing temperature

The temperature coefficient of resistance is a measure of:
a) How resistance changes with temperature
b) How voltage changes with temperature
c) How current changes with temperature
d) How power changes with temperature

Answer
a) How resistance changes with temperature

In semiconductors, increasing temperature typically:
a) Increases the number of charge carriers
b) Decreases the number of charge carriers
c) Keeps the number of charge carriers constant
d) Increases the resistance of the material

Answer
a) Increases the number of charge carriers

The resistance of an alloy generally:
a) Increases with temperature
b) Decreases with temperature
c) Remains constant with temperature
d) Is unpredictable with temperature changes

Answer
a) Increases with temperature

In metals, the rate of change of resistance with temperature is due to:
a) Increased atomic vibrations
b) Decreased atomic vibrations
c) Increased electron mobility
d) Decreased electron mobility

Answer
a) Increased atomic vibrations

What is the effect of cooling a thermistor?
a) The resistance increases
b) The resistance decreases
c) The resistance remains constant
d) The resistance becomes negative

Answer
a) The resistance increases

The resistance of an electrical component with a positive temperature coefficient will:
a) Increase as the component heats up
b) Decrease as the component heats up
c) Remain constant as the component heats up
d) Become zero as the component heats up

Answer
a) Increase as the component heats up

In a conductor, increasing temperature affects the electron collisions in which way?
a) It increases the number of collisions
b) It decreases the number of collisions
c) It has no effect on the collisions
d) It changes the type of collisions

Answer
a) It increases the number of collisions

For a metal wire, if the temperature is decreased, the resistance will:
a) Decrease
b) Increase
c) Remain constant
d) Become zero

Answer
a) Decrease

Which of the following has a resistance that increases with temperature?
a) Metallic conductor
b) Thermistor
c) Superconductor
d) Carbon resistor

Answer
a) Metallic conductor

A positive temperature coefficient of resistance in a material indicates that:
a) The resistance increases with temperature
b) The resistance decreases with temperature
c) The resistance remains constant with temperature
d) The resistance becomes negative with temperature

Answer
a) The resistance increases with temperature

The resistance of a typical metal at very low temperatures approaches:
a) Zero
b) Infinite
c) A constant high value
d) A variable value

Answer
a) Zero

In most metals, resistance is directly proportional to:
a) Temperature
b) Voltage
c) Current
d) Cross-sectional area

Answer
a) Temperature

For a thermistor, a decrease in temperature will result in:
a) An increase in resistance
b) A decrease in resistance
c) No change in resistance
d) The resistance becoming zero

Answer
a) An increase in resistance

In semiconductors, as temperature increases, the resistance generally:
a) Decreases
b) Increases
c) Remains constant
d) Becomes zero

Answer
a) Decreases

If the temperature of a resistor is increased, the rate of change of resistance can be calculated using:
a) The temperature coefficient of resistance
b) The power dissipation
c) The voltage drop
d) The current flowing through it

Answer
a) The temperature coefficient of resistance

A negative temperature coefficient of resistance is characteristic of:
a) Thermistors
b) Metallic wires
c) Superconductors
d) Standard resistors

Answer
a) Thermistors

Which material’s resistance decreases as temperature increases?
a) Carbon
b) Gold
c) Silver
d) Copper

Answer
a) Carbon

For most metals, the resistance-temperature relationship is:
a) Linear
b) Exponential
c) Logarithmic
d) Constant

Answer
a) Linear

The resistance of an alloy is typically more sensitive to temperature changes than that of:
a) Pure metals
b) Insulators
c) Superconductors
d) Semiconductors

Answer
a) Pure metals

Which of the following is true for the resistance of a thermistor with a negative temperature coefficient?
a) It decreases as temperature increases
b) It increases as temperature increases
c) It remains constant with temperature changes
d) It becomes zero at higher temperatures

Answer
a) It decreases as temperature increases

The resistance of a material with a high positive temperature coefficient will:
a) Increase rapidly with temperature
b) Decrease rapidly with temperature
c) Remain nearly unchanged with temperature
d) Become negative with temperature

Answer
a) Increase rapidly with temperature

Which of the following factors does not affect the temperature coefficient of resistance?
a) Material composition
b) Temperature
c) Physical dimensions of the material
d) Pressure

Answer
c) Physical dimensions of the material

For an ideal conductor, the resistance at different temperatures:
a) Remains zero
b) Is directly proportional to temperature
c) Is inversely proportional to temperature
d) Varies unpredictably

Answer
a) Remains zero

The resistance of a superconductor at temperatures above its critical temperature:
a) Increases dramatically
b) Decreases
c) Remains constant
d) Becomes zero

Answer
a) Increases dramatically

As the temperature of a resistor increases, the increase in resistance is primarily due to:
a) Increased lattice vibrations
b) Decreased lattice vibrations
c) Increased electron mobility
d) Decreased electron mobility

Answer
a) Increased lattice vibrations

The resistance of an electrical wire at very high temperatures can become:
a) Very high
b) Very low
c) Zero
d) Constant

Answer
a) Very high

In materials with a high negative temperature coefficient, a rise in temperature leads to:
a) A decrease in resistance
b) An increase in resistance
c) No change in resistance
d) Resistance becoming zero

Answer
a) A decrease in resistance

If the resistance of a conductor is known at one temperature, its resistance at another temperature can be calculated using:
a) The temperature coefficient of resistance
b) The power formula
c) Ohm’s law
d) Kirchhoff’s laws

Answer
a) The temperature coefficient of resistance

In a semiconductor, resistance decreases with temperature due to:
a) Increased charge carrier concentration
b) Decreased charge carrier concentration
c) Decreased electron mobility
d) Increased lattice vibrations

Answer
a) Increased charge carrier concentration

The resistance of an element with a high positive temperature coefficient will:
a) Show a significant increase in resistance with a slight rise in temperature
b) Show no change with temperature variations
c) Show a decrease in resistance with a rise in temperature
d) Become zero at high temperatures

Answer
a) Show a significant increase in resistance with a slight rise in temperature

The resistance of a thermistor at low temperatures is:
a) Higher
b) Lower
c) Constant
d) Undefined

Answer
a) Higher

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