Define 1 coulomb (C).

1 coulomb is the charge carried by an electric current of one ampere in one second .

True or False? Charge is a vector quantity.

False. Charge is a scalar quantity. It has magnitude only , not direction.

Is the electric force between two charges of the same type attractive or repulsive?

The electric force on two charges of the same type is repulsive (directed away from each other).

Is the electric force between two opposite charges attractive or repulsive?

The electric force on two opposite charges is attractive (directed towards each other).

What is the law of conservation of charge ?

The law of conservation of charge states that the total charge in an isolated system remains constant .

True or False? When two charged spheres come into contact, the charges are shared between them until they are evenly distributed.

True. When two charged spheres come into contact, the charges are shared between them until they are evenly distributed . As a result, both spheres will have an equal charge .

What does Millikan's oil drop experiment provide evidence for?

Millikan's oil drop experiment provides evidence for the quantisation of charge .

What is meant by the term fundamental charge ?

The fundamental charge (or elementary charge ) is the charge of a single proton (+1.60 × 10 −19 C) or electron (-1.60 × 10 −19 C).

In Millikan's experiment, why are oil drops used instead of water?

In Millikan's experiment, oil drops are used as they do not evaporate quickly like water. This allows the mass of the drops to remain constant throughout the experiment.

In Millikan's experiment, how do the oil drops become charged?

In Millikan's experiment, the oil drops can become charged by friction (using a spray nozzle) ionisation (using X-rays)

In Millikan's experiment, what happens to the oil drops in the absence of an electric field?

In Millikan's experiment, when no electric field is applied, the oil drops fall under gravity until they reach a terminal velocity .

What is the role of the uniform electric field in Millikan's experiment?

In Millikan's experiment, the uniform electric field provides an electric force which is equal and opposite to the gravitational force on an oil drop. The resultant force will then be zero and the drop will become stationary .

What was the conclusion of Millikan's experiment?

The conclusion of Millikan's experiment was: the charges of all drops were found to be multiples of the same number (-1.60 × 10 −19 C) therefore, electric charge must be a quantised quantity

What is charging by friction ?

Charging by friction is the transfer of charge (electrons) when two insulating substances move past one another. One substance gains an excess of positive charge and the other gains an excess of negative charge.

What is charging by contact ?

Charging by contact is the transfer of charge (electrons) between two substances when there is physical contact between them. The excess , or deficit , of electrons, is shared between the two substances.

What is charging by induction ?

Charging by induction is the separation of charge caused by the influence of a nearby charged object without any physical contact. The charged object causes electrons near the surface of the uncharged substance to be either repelled or attracted .

True or False? Earthing a charged body causes it to discharge until its potential drops to half its initial value.

False. Earthing a charged body causes it to discharge until it has a potential of 0 V .

How can a metal sphere become charged by induction ?

A metal sphere can become charged by induction by bringing a charged rod near the sphere without touching it (this separates the charges) earthing the sphere (this allows electrons to flow to or from the sphere) removing the earth connection and the rod (this leaves an excess charge )

True or False? A metal sphere can become positively charged by induction by using a positively charged rod.

False. A metal sphere can become positively charged by induction by using a negatively charged rod. When inducing a charge on a metal sphere, its final charge will always be opposite to the rod.

How can a metal sphere become charged by contact ?

A metal sphere can become charged by contact by bringing a charged rod into contact with the sphere (this allows electrons to flow to or from the sphere) removing the rod (this leaves an excess charge )

How can sparks occur when refuelling an aircraft?

Sparks can occur when there is a large build-up of charge on the aircraft the potential difference becomes large enough for current to travel through the air

How can the risk of sparks be reduced when refuelling an aircraft?

When refuelling an aircraft, the risk of sparking can be reduced by earthing the aircraft and fuel tank to carry excess charge away.

What is Coulomb's law ?

Coulomb's law states that the electric force between two point charges is directly proportional to the product of the charges and inversely proportional to the square of their separation.

Is the electric force between two opposite charges positive or negative?

The electric force between two opposite charges is negative . A negative force means the force is attractive .

Is the electric force between two similar charges positive or negative?

The electric force between two similar charges is positive . A positive force means the force is repulsive .

True or False? Coulomb's law can be applied to any charged object regardless of shape or size.

False. Coulomb's law can only be applied to charged spheres .

What is the permittivity of a medium ?

The permittivity of a medium represents the medium's ability to transfer an electric field and force between charges in it.

Define electric field strength at a point.

The electric field strength at a point is the force per unit charge experienced by a small positive test charge placed at that point.

What are the two equivalent units of electric field strength?

The two equivalent units of electric field strength are N C -1 and V m -1 .

What is the significance of a test charge ?

Test charges are used to define the strength of a field at a point and the direction a charge will move in the field. This is because electric field strength is a vector quantity.

How is the direction of an electric field defined?

The direction of an electric field is defined by the direction of the force that acts on a positive test charge , such that the force on a positive charge is in the direction of the field the force on a negative charge is in the opposite direction

True or False? The variation of electric field strength around a charged sphere and a point charge are identical.

False. The variation of electric field strength around the outside of a charged sphere and a point charge are identical. Inside the charged sphere, the electric field strength is zero .

How is the resultant electric field due to multiple charges determined?

The resultant electric field due to multiple charges is determined by vector addition . This could be using simple addition (if the point lies on a line joining the charges) using Pythagoras (if the point makes a right-angled triangle with the charges)

How is a uniform electric field set up?

A uniform electric field can be set up between two parallel metal plates by connecting them to the terminals of a power supply.

What do electric field lines represent?

Electric field lines represent the strength of the electric field the direction of the electric field

True or False? Field lines are always perpendicular to the surface of a conducting sphere.

True. Field lines are always perpendicular to the surface of a conducting sphere.

True or False? The field lines around the edges of two parallel plates are uniform.

False. The field lines around the edges of two parallel plates are not uniform.

What two factors does the strength of a radial electric field depend on?

The strength of a radial electric field depends on the magnitude of the charge producing the field the distance between the charge and a point

What is the relationship between electric field strength and line density ?

The density of field lines represents the strength of an electric field the closer together the field lines, the stronger the field the further apart the field lines, the weaker the field

True or False? Magnetic fields are produced around all charges.

False. Magnetic fields are produced around all moving charges.

Define magnetic flux density .

The magnetic flux density of a field is the number of magnetic field lines passing through a region of space per unit area .

One tesla (T) is the flux density that causes a force of 1 N on a 1 m wire carrying a current of 1 A at right angles to the field .

What is the relationship between flux density and the strength of a magnetic field?

The flux density is a measure of the strength of a magnetic field the higher the flux density, the stronger the magnetic field the lower the flux density, the weaker the magnetic field

How is a uniform magnetic field set up?

A uniform magnetic field can be set up between two flat permanent magnets when the north pole of one magnet is parallel to the south pole of the other.

IBPhysicsDPSLFlashcardsFieldsElectric & Magnetic Fields

Electric & Magnetic Fields (DP IB Physics)

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FrontElectric Charge
Define 1 coulomb (C).
FrontElectric Charge
How is this carbon atom electrically neutral?
BackElectric Charge
The carbon atom contains:
6 positive protons
6 negative electrons
6 neutral neutrons
The amount of positive and negative charge is equal, so the carbon atom is electrically neutral.

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Cards in this collection (68)

Define 1 coulomb (C).
1 coulomb is the charge carried by an electric current of one ampere in one second.
True or False?
Charge is a vector quantity.
False.
Charge is a scalar quantity. It has magnitude only, not direction.
How is this carbon atom electrically neutral?
The carbon atom contains:
- 6 positive protons
- 6 negative electrons
- 6 neutral neutrons
The amount of positive and negative charge is equal, so the carbon atom is electrically neutral.
How is charge quantised?
Charge is quantised because any quantity of charge will always equal a whole number of protons or electrons, which have a charge equal to ±1.60 × 10⁻¹⁹ C.
Is the electric force between two charges of the same type attractive or repulsive?
The electric force on two charges of the same type is repulsive (directed away from each other).
Is the electric force between two opposite charges attractive or repulsive?
The electric force on two opposite charges is attractive (directed towards each other).
What is the law of conservation of charge?
The law of conservation of charge states that the total charge in an isolated system remains constant.
True or False?
When two charged spheres come into contact, the charges are shared between them until they are evenly distributed.
True.
When two charged spheres come into contact, the charges are shared between them until they are evenly distributed. As a result, both spheres will have an equal charge.
What is the final charge on two spheres of initial charge +1 C and +9 C when brought into contact?
According to the law of conservation of charge, the final charge on each sphere is equal to the average of the two charges
$Q = \frac{1 + 9}{2} = + 5 C$
What is the final charge on two spheres of initial charge +4 C and -4 C when brought into contact?
According to the law of conservation of charge, the final charge on each sphere is equal to the average of the two charges 0 C
- $Q = \frac{4 - 4}{2} = 0 C$
What does Millikan's oil drop experiment provide evidence for?
Millikan's oil drop experiment provides evidence for the quantisation of charge.
What is meant by the term fundamental charge?
The fundamental charge (or elementary charge) is the charge of a single proton (+1.60 × 10⁻¹⁹ C) or electron (-1.60 × 10⁻¹⁹ C).
In Millikan's experiment, why are oil drops used instead of water?
In Millikan's experiment, oil drops are used as they do not evaporate quickly like water. This allows the mass of the drops to remain constant throughout the experiment.
In Millikan's experiment, how do the oil drops become charged?
In Millikan's experiment, the oil drops can become charged by
- friction (using a spray nozzle)
- ionisation (using X-rays)
In Millikan's experiment, what happens to the oil drops in the absence of an electric field?
In Millikan's experiment, when no electric field is applied, the oil drops fall under gravity until they reach a terminal velocity.
What is the role of the uniform electric field in Millikan's experiment?
In Millikan's experiment, the uniform electric field provides an electric force which is equal and opposite to the gravitational force on an oil drop. The resultant force will then be zero and the drop will become stationary.
In Millikan's experiment, what quantities are needed to calculate the charge of an oil drop?
In Millikan's experiment, the charge of an oil drop is calculated by equating the gravitational and electric forces
$F = m g = E q = \frac{V q}{d}$
Therefore, the quantities needed to calculate the charge, $q$ , are:
- the mass of the drop, $m$
- the potential difference between the metal plates, $V$
- the distance between the metal plates, $d$
What was the conclusion of Millikan's experiment?
The conclusion of Millikan's experiment was:
- the charges of all drops were found to be multiples of the same number (-1.60 × 10⁻¹⁹ C)
- therefore, electric charge must be a quantised quantity
What is charging by friction?
Charging by friction is the transfer of charge (electrons) when two insulating substances move past one another.
One substance gains an excess of positive charge and the other gains an excess of negative charge.
What is charging by contact?
Charging by contact is the transfer of charge (electrons) between two substances when there is physical contact between them.
The excess, or deficit, of electrons, is shared between the two substances.
What is charging by induction?
Charging by induction is the separation of charge caused by the influence of a nearby charged object without any physical contact.
The charged object causes electrons near the surface of the uncharged substance to be either repelled or attracted.
Describe the movement of electrons when an uncharged acetate rod is rubbed with an uncharged cloth.
When an uncharged acetate rod is rubbed with an uncharged cloth:
- electrons are transferred from the acetate rod to the cloth by friction
- the cloth becomes negatively charged because it gains electrons
- the acetate rod becomes positively charged because it loses electrons
True or False?
Earthing a charged body causes it to discharge until its potential drops to half its initial value.
False.
Earthing a charged body causes it to discharge until it has a potential of 0 V.
How can a metal sphere become charged by induction?
A metal sphere can become charged by induction by
- bringing a charged rod near the sphere without touching it (this separates the charges)
- earthing the sphere (this allows electrons to flow to or from the sphere)
- removing the earth connection and the rod (this leaves an excess charge)
True or False?
A metal sphere can become positively charged by induction by using a positively charged rod.
False.
A metal sphere can become positively charged by induction by using a negatively charged rod.
When inducing a charge on a metal sphere, its final charge will always be opposite to the rod.
How can a metal sphere become charged by contact?
A metal sphere can become charged by contact by
- bringing a charged rod into contact with the sphere (this allows electrons to flow to or from the sphere)
- removing the rod (this leaves an excess charge)
How can sparks occur when refuelling an aircraft?
Sparks can occur when
- there is a large build-up of charge on the aircraft
- the potential difference becomes large enough for current to travel through the air
How can the risk of sparks be reduced when refuelling an aircraft?
When refuelling an aircraft, the risk of sparking can be reduced by earthing the aircraft and fuel tank to carry excess charge away.
What is Coulomb's law?
Coulomb's law states that the electric force between two point charges is directly proportional to the product of the charges and inversely proportional to the square of their separation.
What is the electric force between two identical charges of magnitude, $q$ , separated by a distance, $r$ ?
The electric force between the two identical charges is: $F = \frac{k q^{2}}{r^{2}}$
Where:
- $k$ = Coulomb constant (8.99 × 10⁹ N m² C^–2)
- $q$ = magnitude of the charges (C)
- $r$ = separation of the charges (m)
How is Coulomb's law analogous to Newton's law of gravitation?
Coulomb's law: $F = k \frac{q_{1} q_{2}}{r^{2}}$
Newton's law of gravitation: $F = G \frac{m_{1} m_{2}}{r^{2}}$
Both electric force and gravitational force follow an inverse square law with distance.
Is the electric force between two opposite charges positive or negative?
The electric force between two opposite charges is negative.
A negative force means the force is attractive.
Is the electric force between two similar charges positive or negative?
The electric force between two similar charges is positive.
A positive force means the force is repulsive.
True or False?
Coulomb's law can be applied to any charged object regardless of shape or size.
False.
Coulomb's law can only be applied to charged spheres.
True or False?
The value of, $k$ , (Coulomb constant) is the same in all materials.
False.
The value of, $k$ , (Coulomb constant) is not the same in all materials.
- In a vacuum (or air): $k = \frac{1}{4 π ε_{0}}$
- In other materials: $k = \frac{1}{4 π ε}$
Where $ε_{0}$ = permittivity of free space and $ε$ = permittivity of a material
What is the permittivity of a medium?
The permittivity of a medium represents the medium's ability to transfer an electric field and force between charges in it.
How is the permittivity of a medium related to the permittivity of free space?
The permittivity of a medium is related to the permittivity of free space by: $ε_{r} = \frac{ε}{ε_{0}}$
Where:
- $ε_{r}$ = relative permittivity
- $ε$ = permittivity of a medium
- $ε_{0}$ = permittivity of free space
True or False?
All materials have a higher relative permittivity than air.
True.
All materials have a higher relative permittivity than air.
- Relative permittivity of air: $ε_{r} = 1$
- Relative permittivity of other materials: $ε_{r} > 1$
Define electric field strength at a point.
The electric field strength at a point is the force per unit charge experienced by a small positive test charge placed at that point.
What are the two equivalent units of electric field strength?
The two equivalent units of electric field strength are N C^-1 and V m^-1.
What is the significance of a test charge?
Test charges are used to define the strength of a field at a point and the direction a charge will move in the field.
This is because electric field strength is a vector quantity.
How is the direction of an electric field defined?
The direction of an electric field is defined by the direction of the force that acts on a positive test charge, such that
- the force on a positive charge is in the direction of the field
- the force on a negative charge is in the opposite direction
What is the electric field strength due to a point charge of magnitude, $q$ , at a distance, $r$ ?
The electric field strength due to a point charge is: $E = \frac{k q}{r^{2}}$
Where:
- $k$ = Coulomb constant (8.99 × 10⁹ N m² C^–2)
- $q$ = magnitude of the charge (C)
- $r$ = distance from the charge to the point (m)
True or False?
The variation of electric field strength around a charged sphere and a point charge are identical.
False.
The variation of electric field strength around the outside of a charged sphere and a point charge are identical.
Inside the charged sphere, the electric field strength is zero.
How is the resultant electric field due to multiple charges determined?
The resultant electric field due to multiple charges is determined by vector addition. This could be
- using simple addition (if the point lies on a line joining the charges)
- using Pythagoras (if the point makes a right-angled triangle with the charges)
How is a uniform electric field set up?
A uniform electric field can be set up between two parallel metal plates by connecting them to the terminals of a power supply.
Which two quantities does the strength of an electric field between two parallel plates depend on?
The strength of an electric field between two parallel plates is: $E = \frac{V}{d}$
Where:
- $V$ = potential difference between the plates (V)
- $d$ = separation of the plates (m)
An electron is placed in the uniform electric field shown in the diagram. In which direction will it move?
The electron will move to the left towards the positively charged plate.
What do electric field lines represent?
Electric field lines represent
- the strength of the electric field
- the direction of the electric field
Draw the electric field lines around a positive point charge.
The electric field lines around a positive point charge are
Draw the electric field lines around a negative point charge.
The electric field lines around a negative point charge are
Draw the electric field lines around two opposite charges.
The electric field lines around two opposite charges are
Draw the electric field lines around two similar charges.
The electric field lines around two similar charges are
Draw the electric field lines between a positive charge and an earthed plate.
The electric field lines between a positive charge and an earthed plate are
The grounded plate has a potential of 0 V, so the field lines are directed from the positive charge to the 'less positive' plate.
True or False?
Field lines are always perpendicular to the surface of a conducting sphere.
True.
Field lines are always perpendicular to the surface of a conducting sphere.
True or False?
The field lines around the edges of two parallel plates are uniform.
False.
The field lines around the edges of two parallel plates are not uniform.
What two factors does the strength of a radial electric field depend on?
The strength of a radial electric field depends on
- the magnitude of the charge producing the field
- the distance between the charge and a point
What is the relationship between electric field strength and line density?
The density of field lines represents the strength of an electric field
- the closer together the field lines, the stronger the field
- the further apart the field lines, the weaker the field
True or False?
Magnetic fields are produced around all charges.
False.
Magnetic fields are produced around all moving charges.
Define magnetic flux density.
The magnetic flux density of a field is the number of magnetic field lines passing through a region of space per unit area.
Define 1 tesla (T).
One tesla (T) is the flux density that causes a force of 1 N on a 1 m wire carrying a current of 1 A at right angles to the field.
What is the relationship between flux density and the strength of a magnetic field?
The flux density is a measure of the strength of a magnetic field
- the higher the flux density, the stronger the magnetic field
- the lower the flux density, the weaker the magnetic field
How is a uniform magnetic field set up?
A uniform magnetic field can be set up between two flat permanent magnets when the north pole of one magnet is parallel to the south pole of the other.
What is the right-hand grip rule?
The right-hand grip rule is used to determine the direction of a magnetic field around a current:
- the thumb points in the direction of the current
- the fingers curl in the direction of the magnetic field
Draw the magnetic field lines around a current-carrying wire.
The magnetic field lines around a current-carrying wire:
Draw the magnetic field lines around a solenoid.
The magnetic field lines around a solenoid:
Draw the magnetic field lines around a flat circular coil.
The magnetic field lines around a flat circular coil:
True or False?
When viewed from the end of a solenoid, the pole is a north pole if the current travels clockwise around the coil.
False.
When viewed from the end of a solenoid, the pole is a south pole if the current travels clockwise around the coil.

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