Mechanics 1 - Scalars, Vectors and Moments Flashcards

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1
Q

State two conditions for any object to be in equilibrium

A

Resultant force zero
Resultant moment about any point zero

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2
Q

State three vector quantities

A

Any 3 of the following:

Velocity
Acceleration
Force

Displacement

Weight

Momentum

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3
Q

State three scalar quantities

A

Any 3 of the following:

Speed
Distance
Mass

Energy

Power

Temperature

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4
Q

How can force vectors be arranged to show that an object has constant velocity?

A
  1. Vectors make a closed shape when rearranged (by scale drawing)
  2. Or resolve into components and show
  • Total up forces = Total Down forces
  • Total left forces = Total right forces
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5
Q

What is the difference between a vector quantity and a scalar quantity?

A

Vector has a direction
Scalar does not

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6
Q

What is meant by centre of mass?

A

The point in a body where the weight of the object appears to act

Also the resultant moment about this point = 0

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7
Q

Define the moment of a force

A

Product of the force and the perpendicular distance from the line of action of the force to the point

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8
Q

State the principle of moments

A

Sum of the clockwise moments about a point is equal to the sum of the anticlockwise moments for a system in equilibrium

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9
Q

Resolve F into its vertical and horizontal components…

A

FH = FcosØ

Fv = FsinØ

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10
Q

What mistake has been made in rearranging the vectors for a scale drawing?

A

6N vector has been translated (moved) but also rotated

Should be:

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11
Q

What are the steps in working out the resultant force using a tip-tail scale drawing?

A
  1. Set a scale
  2. Draw the horizontal or vertical vector first (if there is one)
  3. Move each vector in turn to the end of the previous one (DO NOT ROTATE THE VECTORS)
  4. Resultant vector goes from the very start to the very end
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12
Q

How is the balancing force different from the resultant force?

A

The balancing force brings the object into equilibrium so makes the resultant force = 0

For a scale drawing, it is the vector that closes the shape

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13
Q

If vectors are parallel they can be resolved by…

A

Adding or subtracting the values

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14
Q

If vectors are perpendicular they can be resolved by…

A

Making a right angled triangle and using trigonometry and pythagoras

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15
Q

What is wrong with this?

A

Vectors of different types can’t be combined

(Here, force and velocity cannot be combined)

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16
Q

How do you solve this if the object is in equilibrium?

(3 vectors with 2 unknown sizes)

A
  1. The vectors must form a closed shape
  2. Start as you would with a scale drawing
  3. But draw the third vector meeting for where it connects to the start of the first
  4. Draws vectors as dotted lines

(x=2.54N, y=3.89N)

17
Q

The box is in equilibrium with no external forces applied

Label the forces acting on the box

A

Notice the angle between weight and perpendicular is also Ø

18
Q

If this box is in equilibrium how would you go about calculating the frictional force and the reaction force?

A
19
Q

How do you calculate the resultant moment? (2 ways)

A
  1. Multiply perpendicular component of force by distance
  2. Multiply perpendicular component of distance by force

(First method is shown)

20
Q

What’s wrong with this?

A

Weight must form the hypotenuse of the triangle

21
Q

What is a couple?

A

A pair of equal and opposite coplanar forces which do not act along the same line of action

22
Q

What does it mean if an object is uniform?

A

It has an constant density so its centre of mass acts from the physical centre point of the object

(Weight vector starts from middle of object)

23
Q

When should you use moments?

A

Any situation that has two unknown forces acting on an object

Take moments about one of the unknown forces to find the other

Then use total up force = total down force to find the other