edexcel-combined-1-and-9-paper-6-solution Archives - Fridge Physics

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Force on a Spring

When a force acts on a spring it is stretched or compressed, its length will changes by an amount e from its original length.

Demo

In this tutorial you will learn how to calculate the force on a spring given its extension and spring constant.

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The equation for this calculation is written like this:

$F = { \text k \; \text x \; \text e}$

Chilled practice question

Copy out the question and attempt to calculate the answer before watching the solution. Write down the equation and show all of your working, remember to add the units to your answer, this routine will guarantee you maximum marks in an exam. Mark your solution and correct if needed.

A spring is stretched 0.25 m, it has a spring constant of 20 N/m, calculate the force on the spring.

Frozen practice question

Copy out the question and attempt to calculate the answer before watching the solution. Write down the equation and show all of your working, remember to add the units to your answer, this routine will guarantee you maximum marks in an exam. Mark your solution and correct if needed..

A force of 10 N is applied to a spring and it extends by 20 cm, calculate its spring constant.

Science in context

When a spring is stretched or compressed, its length will changes by an amount x from its original length,  force  F = ke. The force the spring exerts is its restoring force, it acts to restore the spring to its original length.

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Kinetic Energy

In physics, the kinetic energy (KE) of an object is the energy that it has due to its motion. It is defined as the work needed for an object of a known mass to accelerate to a given velocity.

What is Kinetic energy?

In physics, the kinetic energy (KE) of an object is the energy that it has due to its motion. It is defined as the work needed for an object of a known mass to accelerate to a given velocity.

Kinetic energy equation

To calculate Kinetic energy we write the equation like this.

$E_k = { 1 \over2} mv {^2}$

Kinetic energy demo

In this tutorial you will learn how to calculate the energy stored in a moving object.

Chilled practice question

Copy out the question and attempt to calculate the answer before watching the solution. Write down the equation and show all of your working, remember to add the units to your answer, this routine will guarantee you maximum marks in an exam. Mark your solution and correct if needed.

Calculate the Kinetic energy store in a car with a mass of 850 Kg moving at a velocity of 3.5 m/s.

Frozen practice question

Copy out the question and attempt to calculate the answer before watching the solution. Write down the equation and show all of your working, remember to add the units to your answer, this routine will guarantee you maximum marks in an exam. Mark your solution and correct if needed.

A meteorite has 8000 J of Kinetic energy, calculate its mass if it has a velocity of 20 m/s

Science in context

Anything that is moving has energy in its kinetic energy store.

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Specific Heat Capacity

Specific heat capacity is how much heat energy is required to raise 1 kg of a substance by 1 °C.

What is Specific heat capacity?

Specific heat capacity is how much heat energy is required to raise 1 kg of a substance by 1 °C. Specific heat capacity is the amount of heat energy required to raise the temperature of a substance per unit of mass. The specific heat capacity of a material is a physical property and different materials have a different specific heat capacities.

Specific heat capacity equation

To calculate Specific heat capacity we write the equation like this.

$\Delta E = mc\Delta\theta$

Specific heat capacity demo

In this tutorial you will learn how to calculate how much energy is required to raise the temperature of a known mass of a substance.

Chilled practice question

The specific heat capacity of water is 4200 J/Kg/ °C. Calculate the energy needed to raise 4 Kg of water from 18 °C to 35 °C.

Frozen practice question

Calculate the S.H.C of 750 g of material which needs 14 KJ of heat energy to raise its temperature by 22 °C ?

Science in context

Specific heat capacity is how much heat energy is required to raise 1 kg of a substance by 1 °C.

Millie’s Master Methods

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Power

The quantity power is the rate at which work is done. The quicker work is done the greater the power.

What is Power?

The quantity power is the rate at which work is done. The quicker work is done the greater the power. The standard metric unit of power is the Watt. The calculation of power is the work done in Joules divided by a unit of time seconds. 1 Watt is equivalent to 1 joule of work done per second. Many machines have their power rating displayed upon them in Watts, the higher the value the greater the power of the machine and the faster the rate of energy transfer.

Power equation

To calculate Power we write the equation like this.

$P = { W \over \text{t}} = { E \over \text{t}}$

Power demo

In this tutorial you will learn how to calculate power, the rate of doing work during an energy transfer.

Chilled practice question

Calculate the power of an electric fire if it transfers 950 KJ of energy in 5 minutes 30 seconds.

Frozen practice question

An electric heater has a power rating of 2200 W. How long to the nearest second does it take to transfer 500 KJ of energy.

Science in context

Power is the rate of energy transfer per second.

Millie’s Master Methods

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Elastic Potential Energy

Stretching or squashing an object can transfer energy into its elastic potential energy store.

What is Elastic potential energy?

Stretching or squashing an object can transfer energy into its elastic potential energy store. Elastic energy is the mechanical potential energy stored in the material. Elastic energy occurs when objects are compressed, stretched or deformed.

Elastic potential energy equation

To calculate Elastic potential energy we use this equation.

$E_e = { 1 \over2} ke {^2}$

Elastic potential energy demo

In this tutorial you will learn how to calculate the energy stored in a stretched spring.

Chilled practice question

A spring is stretched 200 cm. The spring has a spring constant of 30 N/M. Calculate the stored elastic potential energy of the stretched spring.

Frozen practice question

Calculate the extension of a spring if it has a stored elastic potential energy of 540 J and a spring constant of 30 N/M.

Science in context

Stretching or squashing an object can transfer energy into its elastic potential energy store.

Millie’s Master Methods

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Charge

The size of the current is the rate of flow of charge. Electrons are negatively charged particles which transfer energy through wires as electricity.

What is Charge?

The size of the current is the rate of flow of charge. Electrons are negatively charged particles which transfer energy through wires as electricity. Charge is measured in coulombs (C). Electrons are really small and the effect of one electron would be really difficult to measure, It is easier to measure the effect of a large number of electrons. One Coulomb of charge contains 6 × 1018 electrons.

Charge equation

To calculate Charge we use this equation.

$Q = { \mathit I \, \mathit t} $

Charge demo

In this tutorial you will learn how to calculate the the charge flowing in an electrical circuit.

Chilled practice question

Calculate the charge when a current of 16 A flows for 2 minutes.

Frozen practice question

How long must a current of 26 A flow to transfer 936 KC.

Science in context

The size of the current is the rate of flow of charge.

Millie’s Master Methods

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Resistance

Resistance is an electrical quantity that measures how a device or material reduces the electrical current flow through it.

What is Resistance?

Resistance is an electrical quantity that measures how the device or material reduces the electrical current flow through it. Resistance is measured in ohms (Ω).If we make a comparison of resistance to water flow in pipes, the resistance is greater when the pipe is thinner, so the water flow is decreased It slows down which also happens to the flow of electricity.

Resistance equation

To calculate Resistance we write the equation like this.

$V = { \mathit I \, \mathit R} $

Resistance demo

In this tutorial you will learn how to calculate the resistance in an electrical circuit.

Chilled practice question

Calculate the resistance of a bulb supplied with 8 V and a current flow of 2 A.

Frozen practice question

Calculate the current in a circuit which has a resistance of 16 Ω and a potential difference of 8 V.

Science in context

Resistance reduces the flow of electricity.

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Resistance in Series and Parallel

Resistors in series and in parallel can change the total resistance in a circuit.

What is Resistance in series and parallel?

Resistors in series and in parallel change the total resistance in a circuit. Special components called resistors are made especially for creating a precise quantity of resistance in a circuit. They are generally made of metal wire or carbon and constructed to maintain a stable steady amount of resistance over a wide range of environmental conditions.

Resistance in series and parallel equation

To calculate Resistance in series we use this equation.

$R_t = {\mathit R_1 \text + \mathit R_2}$

Resistance in series and parallel demo

In this tutorial you will learn how to calculate the total resistance of resistors in series and parallel.

Chilled practice question

Calculate the current in a circuit if it is supplied with a voltage of 36 V and has two resistors in series one 6 Ω and the other 3 Ω.

Frozen practice question

Three resistors are connected in parallel, resistor A is 2 Ω , resistor B is 4 Ω, and resistor C is 5 Ω . What is the total resistance in the circuit ?

Science in context

Resistance in series and parallel change the total resistance in a circuit

Millie’s Master Methods

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Electrical Power

The power of an appliance is the energy that is transferred per second. Electric power is the rate, per unit time at which electrical energy is transferred by an electric circuit.

What is Electrical power?

The power of an appliance is the energy that is transferred per second. Electric power is the rate, per unit time, at which electrical energy is transferred by an electric circuit. The unit for power is the watt, which is the transfer of energy at the rate of one joule per second. Electric power can be produced by electric generators and batteries.

Electrical power equation

To calculate Electrical power we use this equation.

$ {\mathit P \, \text = \mathit V \mathit I}$

Electrical power demo

In this tutorial you will learn how to calculate the electrical power of an electrical appliance.

Chilled practice question

Calculate the power in a circuit when a p.d of 18 V and a current of 4 A is measured.

Frozen practice question

Find the current flowing through an appliance which has a power rating of 14 KW and a p.d of 230 V.

Science in context

The power of an appliance is the energy that is transferred per second

Millie’s Master Methods

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Density

Density is a measure of how compact the particles are in a substance. Density is defined as the mass per unit volume.

What is Density

Density is a measure of how compact the particles are in a substance. Density is defined as the mass per unit volume. It is mathematically defined as mass divided by volume: ρ = m/V. The density(ρ) of a substance is the total mass (m) of that substance divided by the total volume (V) Of the substance.

Density equation

To calculate Density we use this equation.

${\rho} = {\text{m} \over\text{V}}$

Density demo

In this tutorial you will learn how to calculate the density of different substances.

Chilled practice question

A block has a mass of 20 Kg and a volume of 0.25 m3. Calculate its density.

Frozen practice question

A barrel has a mass of 2500 g and a density of 2 Kg/m3. Calculate the barrels volume.

Science in context

Density is a measure of how compact the particles are in a substance.

Millie’s Master Methods

The Fridge Physics Store

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