Mechanics

Question 1

What is Equilibrium?

Answer 1

Where the forces and moments acting on an object are equal

Question 2

Define vector and scalar.

Answer 2

Vector = direction and magnitude
Scalar = magnitude

Question 3

Give examples of vectors.

Answer 3

Velocity, acceleration, force.

Question 4

Give examples of scalars.

Answer 4

Mass, density, volume, energy, distance.

Question 5

What are the two methods for the addition of vectors?

Answer 5

Scale drawing or calculation.

Question 6

How do you add vectors by scale drawing?

Answer 6

• Decide on suitable scale (1N=1cm)
• Draw 1st vector in correct direction and length (protracted and ruler)
• Draw 2nd vector with its tail on the nose of the 1st (correct direction and length)
• Result is found by drawing a line from the tail of 1st to nose of 2nd

Question 7

Does the order you draw vectors for scale drawing matter?

Answer 7

No

Question 8

For what vectors can you calculate instead of drawing?

Answer 8

Vectors at right angles.

Question 9

How do we calculate the addition of vectors?

Answer 9

Pythagoras.

Question 10

How do we resolve vectors into two components?

Answer 10

Use SohCahToa.

Question 11

Define moment.

Answer 11

The force x the perpendicular distance from its line of action to the pivot

Question 12

For an object in equilibrium the sum of what around a point = the sum of what around the point?

Answer 12

Clockwise and anti-clockwise movements.

Question 13

What is a couple?

Answer 13

Consists of a pair of coplanar forces equal in magnitude and opposite in direction who do not act along the same line of action.

Question 14

What is the moment of a couple?

Answer 14

Force x perpendicular distance between the lines of action of the forces.

Question 15

Define centre of mass.

Answer 15

The point where all off the mass can be considered to be concentrated. A force applied through this point won’t cause rotation, or a resultant movement.

Question 16

Define centre of gravity.

Answer 16

The point where all of the weight of an object can be considered to act through.

Question 17

What do the COM and COG share?

Answer 17

The same point.

Question 18

Define uniform.

Answer 18

Mass is evenly distributed.

Question 19

How can the COM be found for uniform objects?

Answer 19

Balance it on a knife’s edge, COM would be directly above the support.

Question 20

How do you find the COM for an irregular lamina?

Answer 20

• Push a pin through the sheet and allow it to swing freely
• It comes to rest with the COM directly below the point of suspension
• Draw a plumb line, the COM is somewhere along this line
• Repeat from a different position
• Where lines cross is COM

Question 21

v = ?

Answer 21

∆s/∆t

Question 22

a = ?

Answer 22

∆v/∆t

Question 23

On a s/t graph what is the gradient? What do straight lines mean?

Answer 23

Velocity, constant velocity.

Question 24

What does it mean if an s/t graph goes into the negative quadrant? What is the x axis?

Answer 24

Moving in opposite direction to starting point. The starting point.

Question 25

What are the two velocities you can find from a curve on an s/t graph? How do we find them?

Answer 25

Instantaneous velocity of a point (draw tangent), average velocity (take gradient between top and bottom point).

Question 26

On a v/t graph what is the gradient? What do straight lines mean?

Answer 26

Acceleration, constant acceleration.

Question 27

What does a negative gradient mean on a v/t graph?

Answer 27

Deceleration.

Question 28

What does it mean when a v/t graph goes into the negative quadrant?

Answer 28

Negative velocity moving in the opposite direction (and getting faster).

Question 29

What are the two accelerations you can find from a curve on a v/t graph? How do we find them?

Answer 29

Instantaneous acceleration (tangent), average acceleration (top and bottom points).

Question 30

What is the area of a v/t graph?

Answer 30

Displacement.

Question 31

What happens on an s/t graph for a bouncing ball?

Answer 31

Starts at s, slopes down to x axis, slopes back up but does not reach original height.

Question 32

What happens on a v/t graph for a bouncing ball?

Answer 32

Starts at x axis, straight line down into negative quadrant, vertical line up to positive quadrant, straight line (with same grad. as first) goes down reaching x axis.

Question 33

What happens on an a/t graph for a bouncing ball?

Answer 33

Straight, horizontal line at -9.81.

Question 34

If 0 air res. what happens to Vx and Vy in projectile motion? What effect does this have?

Answer 34

Vx is constant. Vy increases due to acceleration due to gravity. Angle to the horizontal increases.

Question 35

Horizontal and vertical motion are ………..?

Answer 35

Independent of each other.

Question 36

If there is air res. what happens to Vx and Vy in projectile motion?

Answer 36

Vx decreases over time (eventually reaching 0). Vy increases over time (however acceleration isn’t constant it decreases eventually reaching 0 - terminal velocity).

Question 37

What is terminal velocity?

Answer 37

When an object moves at a steady speed in a constant direction because the resultant force acting on it is zero.

Question 38

How do we change terminal velocity?

Answer 38

Increasing SA, eg. parachute.

Question 39

What is drag?

Answer 39

A resistive force that acts parallel, but in the opposite direction, to the direction of motion.

Question 40

What factors effect drag?

Answer 40

Size and shape of the object.
Properties of the fluid (density, viscosity).

Velocity of the object.

Question 41

What is lift?

Answer 41

A force that acts perpendicular to the direction of motion. When an object moves through a fluid.

Question 42

What three factors effect lift?

Answer 42

Size and shape of the object.
Properties of the fluid (density, viscosity).

Velocity of the object.

Question 43

What is friction?

Answer 43

A force that acts against the direction of motion or resultant force on a stationary object.

Question 44

What is friction controlled by?

Answer 44

Type of surfaces in contact (eg. ice vs carpet).

Perpendicular forces between the surfaces (normal forces).

Question 45

How do we increase max speed (I knew a lad called Max Speed) of a vehicle?

Answer 45

Changing thrust (more/bigger engines).
Changing drag (changing the size and where in the atmosphere).

Question 46

What is Newton’s 1st law of motion?

Answer 46

An object at rest, remains at rest, and a moving object continues with a uniform velocity (same speed straight line), unless acted on by a resultant force.

Question 47

If a resultant force acts on an object which what does it do and in which direction?

Answer 47

Accelerates in the direction of the force.

Question 48

What is Newton’s 2nd law?

Answer 48

The resultant force on an object is equal to the rate of change of momentum.

Question 49

What is the equation for Newt’s 2nd law?

Answer 49

F = ∆(mv) / ∆t

Question 50

What is the equations for Newt’s 2nd law where the mass is a constant?

Answer 50

F = ma

Question 51

What is Newton’s 3rd law?

Answer 51

If object A exerts a force on object B, object B exerts a force equal in magnitude and opposite in direction back onto object A.

Question 52

What is the condition of Newt’s 3rd law?

Answer 52

Must be two different objects.
Must be the same type of force (eg. Both gravitational).

Same line of action.

Question 53

Momentum = ?

Answer 53

Mass x velocity

Question 54

In a collision or explosion between 2 objects, if no external forces act, the linear momentum before the event is what?

Answer 54

Equal to the momentum after the event.

Question 55

Define linear momentum.

Answer 55

Momentum from an object moving in a straight line with any orientation.

Question 56

What is impulse equation?

Answer 56

The force x the time taken for the collision. Ft = ∆p

Question 57

Define impulse.

Answer 57

Impulse is the change in momentum during a collision or explosion.

Question 58

On a force time graph what is the area under the graph?

Answer 58

Impulse.

Question 59

What happens in an elastic collision?

Answer 59

The Ek before and after a collision is =, in an isolated system.

Question 60

What happens in an inelastic collision?

Answer 60

The Ek is not equal before an after a collision, it will be lower in an isolated system.

Question 61

How to prove inelastic collision?

Answer 61

Calculate Ek (0.5mv^2) before and after to show not =.

Question 62

What are examples of elastic collisions?

Answer 62

Ball with velocity v hits stationary ball what the same mass, ball 1 stops and ball 2 continues with velocity v.
Two balls come at each other with different masses and speeds, collide, move away in opposite direction with negative velocity.

Question 63

Why do we want to reduce the force experienced in a collision, what do we do?

Answer 63

Reduce risk of death and injury, we make the collision longer - reducing impulse.

Question 64

How do we reduce impulse? What are these things designed to do?

Answer 64

Crumple zones, steel motorway barriers, tyre walls (not just for the aesthetics).
Designed to deform to elongate time taken.

Question 65

What is work done, W?

Answer 65

The energy transferred to an object by the components of the force parallel to the direction of motion when it’s moved across a distance.

Question 66

What is the equation for work done?

Answer 66

W = Fscosθ

Question 67

Power = ?

Answer 67

∆Energy / ∆t

Question 68

Define power.

Answer 68

Rate of energy transfer or rate of work done.

Question 69

What is the area under a force displacement graph?

Answer 69

Work done.

Question 70

Efficiency =

Answer 70

Useful energy / total energy
OR

Useful power / input power

Question 71

What is conservation of energy?

Answer 71

Energy cannot be created or destroyed, only transferred between sources. Energy before = energy after.

Question 72

For the mark scheme what do you need to do to equations before subbing in values?

Answer 72

Rearrange.

Question 73

Why won’t real value reach calculated value?

Answer 73

Work done by friction/ resistive forces. Energy converted to internal/thermal energy.

Question 74

Define gravitational field strength, scalar or vector?

Answer 74

Force per unit mass, vector.

Question 75

State and explain one use for satellite travelling in orbit.

Answer 75

GPS, several satellites needed to fix position on earth.