S3 Physics: Kinetic Theory
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S3 Physics: Kinetic Theory - Marcador
S3 Physics: Kinetic Theory - Detalles
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| 🇬🇧 | 🇬🇧 |
| What is Density? | Mass per unit volume |
| What is the density of a substance? | A measure of how much mass is occupying a particular volume. |
| What does density tell us? | A measure of how much mass is occupying a particular volume |
| Is this object dense or not dense? | Not Dense |
| What effect does changing an objects state of matter have on an object’s density? | It will change the density. |
| Question | Answer |
| In the formula ρ = m/V, what is ρ? | Rho, density |
| What is mass measured in? | Kilograms (kg) |
| What is volume measured in? | M³, cm³, ml, l |
| How do you measure the density of a cuboid? | 1. Measure the mass on a balance/scale 2. Measure the length, breadth and height with a ruler. 3. Calculate the volume with v=lxbxh 4. Calculate the density with ρ=m/v |
| How do you measure the density of water? | 1. Measure the mass of the measuring cylinder alone. 2. Fill measuring cylinder to desired volume of water. 3. Measure the mass of the water + mass of measuring cylinder. 4. Subtract the mass of a measuring cylinder alone from mass of water + measuring cylinder. 5. Calculate the density with ρ=m/v |
| If we measure mass in grams and volume in ml, what will density be measured in? | G ml⁻¹ ( equivalent to g cm⁻³) |
| How do you measure the density of an irregularly shaped object? | 1. Measure the mass of the object 2. Put water into a measuring cylinder and note the volume. 3. Submerge the object in water and record the new volume. 4. Subtract volume of water from the volume of the water + the object 5. Calculate the density with ρ=m/v |
| How do we measure and calculate the density of a cuboid? | 1. Measure the objects mass on a balance. 2. Use a ruler to measure the objects length, breadth and height. 3. Use V=lxbxh to calculate the objects volume. 4. Use ρ = m/V to calculate the object’s density. |
| How do we measure and calculate the density of a cylinder? | 1. Measure the mass of the object on a balance. 2. Use a ruler to measure the cylinder’s diameter. Divide by two to get the radius. 3. Use a ruler to measure the cylinders height. 4. Use V = π r²h to calculate the volume. 5. Use ρ = m/V to calculate the cylinder’s density. |
| How do we measure the density of a liquid? | Mass of liquid = mass of filled container – mass of empty container then: ρ = m/V |
| How do we measure and calculate the density of an irregularly shaped object? | Volume of irregular object = volume of object and water – volume of water alone then: ρ = m/V |
| What is pressure? | A measure of how much force is acting over a particular area. |
| In the formula p=F/A, what is p? | Pressure |
| What is pressure measured in? | N m⁻² or Pa |
| In the formula W=mg, what is g? | Gravitational field strength |
| What is a fluid? | Liquid or gas |
| What is the atmosphere? | The layer of gas around the Earth |
| What causes atmospheric pressure? | Air molecules colliding with a surface |
| If an object is more dense than the medium surrounding it, will it float or sink in that medium? | Sink |
| What is upthrust/buoyant force? | If an object is placed in water, when the depth of water increases, the pressure increases. Since the bottom of the object is deeper than the top, the pressure at the bottom will be bigger than the pressure at the top, resulting in a resultant force upwards. |
| What causes an object to sink? (explain your answer referring to upthrust, and the object’s weight) | If the weight of the object is larger than the upthrust, the object will sink. |
| How is gas pressure created? | Due to the vast number of gas particles colliding with container walls and exerting a force over that area |
| What is the relationship between pressure and volume? | Inverse relationship: as volume increases, pressure decreases |
| What is the relationship between pressure and 1/volume? | Directly proportional |
| What do you get when you multiply pressure and volume? | A constant value |
| What is the Boyle’s Law formula? | P₁V₁ = p₂V₂ |
| In the equation p₁V₁ = p₂V₂, what is p₁? | Initial pressure |
| In the equation p₁V₁ = p₂V₂, what is p₂ | Final pressure |
| In the equation p₁V₁ = p₂V₂, what is V₁? | Initial volume |
| In the equation p₁V₁ = p₂V₂, what is V₂? | Final volume |
| In a container with a large volume, are there more or fewer collisions with the walls? | Fewer, as the gas particles have further to travel to collide with the walls |
| In a container with a small volume, is there a larger or smaller pressure on the walls? | Greater, because there are more collisions with the walls due to less distance to travel |
| What is 0K (zero kelvin) also known as? | Absolute zero |
| What happens to particles in a substance at absolute zero? | They stop moving |
| What is the relationship between pressure of fixed mass of gas and its temperature in kelvin? | Directly proportional |
| What do you get when you divide pressure of a fixed mass of gas by its temperature in kelvin? | A constant value |
| In the formula p₁/T₁ = p₂/T₂, what is p₁? | Initial pressure |
| In the formula p₁/T₁ = p₂/T₂, what is T₁? | Initial temperature (in K) |
| In the formula p₁/T₁ = p₂/T₂, what is p₂? | Final pressure |
| In the formula p₁/T₁ = p₂/T₂, what is T₂? | Final temperature (in K) |
| At a high temperature, do gas particles exert a large or small pressure? explain your answer | At high temperatures gas particles move more quickly and energetically and collide with the container walls more frequently. this exerts a large force on the container walls, resulting in large pressure |
| At a low temperature, do gas particles exert a large or small pressure? explain your answer | At low temperatures gas particles move less quickly and energetically and collide with container walls less frequently. this exerts a smaller force on the container walls, resulting in a smaller pressure. |
| What is the relationship between the volume of a fixed mass of gas and its temperature in kelvin? | Directly proportional |
| What do you get when you divide the volume of a fixed mass of gas by its temperature in kelvin? | A constant value |
| What is the formula for the relationship between the volume of a fixed mass of gas and its temperature in kelvin? | V₁/T₁ = V₂/T₂ |
| In the formula V₁/T₁ = V₂/T₂, what is V₁? | Initial volume |
| In the formula V₁/T₁ = V₂/T₂, what is T₁? | Initial temperature in K |
| In the formula V₁/T₁ = V₂/T₂, what is V₂? | Final volume |
| In the formula V₁/T₁ = V₂/T₂, what is T₂? | Final temperature in K |
| What is the general (combined) gas law formula? | (P₁ x V₁)/T₁ = (P₂ x V₂)/T₂ |
| What do you get when you divide the pressure of a fixed mass of gas multiplied by it’s volume, by its temperature in kelvin? (PV/T) | A constant value |
| What is pressure? | Force per unit area |