Mechanics: 1, 2, 4 Flashcards

1
Q

1) How is momentum calculated?

A

Momentum (kg ms^-1) = mass (kg) x velocity (ms^-1)

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2
Q

1) What is impulse? (2)

A

A change in momentum

The impulse of body B on body A = the impulse of body A on body B

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3
Q

1) How is impulse calculated? (2)

A
I = mv - mu (final momentum - initial momentum)
I = Ft (force x time)
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4
Q

1) What is conservation of linear momentum? (2)

A

If two objects moving in a straight line collide, the momentum before the collision = the momentum after the collision
m1u1 + m2u2 = m1v1 + m2v2

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5
Q

4) What is Newton’s experimental law?

A

In direct collisions the relative velocity of the two bodies is reversed and the speed of separation is e times the speed of approach

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6
Q

4) What is e? (2)

A

The coefficient of restitution

A constant for two surfaces in contact that is dependent on the nature of the two surfaces where 0 < e < 1

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7
Q

4) How is e calculated? (2)

A

|speed of separation| / |speed of approach|
The speeds of objects moving in the same direction (&laquo_space;or&raquo_space;) are subtracted whilst the speeds of objects moving in opposite directions (<> or >

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8
Q

2) What is kinetic energy? (2)

A

The energy of a particle due to its motion

KE = 1/2 mv^2

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9
Q

2) How is loss in kinetic energy calculated?

A

Total KE before collision - Total KE after collision

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10
Q

2) How is work done calculated?

A

Work done = force in direction of motion x distance moved

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11
Q

2) How is work done against gravity calculated?

A

Work done = mass x g x vertical height difference

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12
Q

2) What is potential energy?

A

PE = mgh

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13
Q

2) How are work done and kinetic energy connected?

A

Work done = change in kinetic energy

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14
Q

2) What is the principle of conservation of mechanical energy?

A

When no external forces (other than gravity) do work on a particle during its motion, the sum of the particle’s kinetic energy and potential energy remains constant

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15
Q

2) What is the work-energy principle?

A

The change in total energy of a particle is equal to the work done on the particle

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16
Q

2) How is friction calculated? (2)

A

Fr max = μR
μ = coefficient of friction (0-1)
R = normal reaction force

If Fr max > the opposing force, then friction is equal to the opposing force and the object is stationary or moving at a constant speed

17
Q

2) What is power?

A

The rate of doing work

18
Q

2) How is power calculated?

A

Power = Fv
F - driving force
v - velocity