Forces
Cards (123)
- Displacement
- Vector
- Time
- Scalar
- Distance
- Scalar
- Speed
- Scalar
- Generally, scalars cannot be negative, but vectors can be, as a certain direction is positive
- ScalarHas just magnitude
- Momentum
- Vector
- Energy
- Scalar
- Acceleration
- Vector
- All matter has a gravitational field, and attracts all other matter
- VectorHas magnitude and direction
- Speed is only velocity when given a direction, so thrown 10𝑚𝑚𝑠𝑠−1 is its speed but thrown 10𝑚𝑚𝑠𝑠−1 at 30° above the horizontal is the velocity
- Weight is the force exerted on a mass by the gravitational field, in Newtons
- VectorsCan be represented by arrows, with their size/length representing the vector magnitude
- A force is a push or pull that acts on an object due to the interaction with another object. All forces between objects are either: Non-Contact or Contact
- Imagine a car travelling round a roundabout at constant speed. While its speed is constant, its direction is constantly changing – so its velocity is constantly changing therefore it is accelerating
- The larger the mass, the stronger the field, the greater the attraction
- Mass
- Scalar
- The weight of an object is considered to act at the object’s centre of mass
- Resultant Force is a single force representing the sum of all the forces acting on an object
- If more than one force act along a straight line, the resultant can be found by adding (acting in the same direction) or subtracting (acting in opposite directions) them
- Skydiver example: Forces that act are air resistance and weight. Initially, the skydiver has no air resistance and the only f
- Force
- Vector
- Acceleration in free fall is due to gravity, and is the same as g, i.e. 10𝑚𝑚𝑠𝑠−2
- Imagine a ball thrown off a cliff, displacement is 0 at height of cliff, above the cliff the ball has positive displacement, and below the clifftop the ball has negative displacement
- Contact forces
- Normal contact force
- Friction
- Non-Contact forces
- Electrostatic
- Gravitational attraction
- Velocity
- Vector
- In long answer questions, you may be able to decide where the “0” point of a vector may lie, for example you could set zero to be bottom of cliff, so the ball will never have negative displacement
- Weight = mass × gravitational field strength
- Elastic Deformation: The object returns to its original shape when the load has been removed
- One joule of work is done when a force of one newton causes a displacement of one metre
- As air resistance increases, the resultant force from weight decreases
- Resultant force when air resistance increases: 833 - 350 = 483N down
- Work done is when energy is transferred from the object doing the work to another form
- Acceleration decreases as air resistance increases, resulting in slower speed increase
- Work done against frictional forces causes a rise in temperature of the object
- Resultant force when acceleration decreases: 133N down
- Work Done = Force × Distance
- When air resistance and weight are equal, there is no resultant force