physics eq's 2

Question 1

The formula for: average velocity?

Answer 1

v = displacement / time

Question 2

The formula for: average acceleration?

Answer 2

a = velocity / time

Question 3

The formula for: uniform accelerated motion –> solved for d (3)

Answer 3

d = 1/2 (Vo + V)t     missing a 
d = Vot + 1/2at^2   missing V 
d = Vt - 1/2at^2      missing Vo 

notice the difference in +/-

Question 4

The formula for: solved for final velocity (2)

Answer 4

V^2 = Vo^2 + 2ad   missing t
V = Vo + at missing d

Question 5

the area under a velocity vs. time graph gives?

Answer 5

displacement

Question 6

newtons second law

Answer 6

Fnet = ma

Question 7

if an object has constant velocity what is true of Fnet?

Answer 7

no acceleration (constant v) so Fnet = 0 (i.e. dynamic equilibrium)

Question 8

formula for: weight?

Answer 8

w = mg (g is 10 unless on different planet)

Question 9

formula for: gravitational pull between two objects

Answer 9

Fg = G x Mm / r^2

Question 10

formula for g (force of gravity)?

Answer 10

we can combine w = mg with Fg = G x Mm / r^2
(note w = Fg)

we get: g = G x M/r^2

Question 11

formula for static and kinetic friction

Answer 11

Fk = Fn x μk

Fsmax = Fn x μs

μs > uk always

Question 12

what is the equation for the parallel force of gravity on an object sitting on an inclined plane?

Answer 12

sin slides down the slope

mgsinθ

Question 13

the formula for: the centre of mass for a multi-mass object

Answer 13

Xcm = m1x1 + m2x2 +m3x3 / m1 + m2 + m3

x is the distance from a set point

Question 14

the formula for: centripetal acceleration

Answer 14

a = V^2 / r

Question 15

if r increases what happens to centripetal a?

Answer 15

it actually increases since r is proportional with v and v is squared in a = V^2 / r

Question 16

the formula for: centripetal force

Answer 16

Fc = m x V^2 / r

Question 17

formula for: torque (2)

Answer 17

T = F x d x sinθ

or

T = F x L 
L = lever arm

Question 18

what decreases rotational inertia?

Answer 18

making the mass closer to the axis of rotation

Question 19

the formula for? work?

Answer 19

W = F x d x cosθ
measured in joules

note: this opposes torque which is
T = F x r x sinθ
measured in Nm

Question 20

the formula for? power?

Answer 20

P = W / t

P = F x v
if force is parallel to velocity

Question 21

the formula for? kinetic energy and gravitational potential energy

Answer 21

KE = 1/2mv^2

PEgrav = mgh

Question 22

t or f, ΔKE = total Work

Answer 22

true - work energy theorem

Question 23

the formula for? conservation of mechanical energy

Answer 23

KE1 + PE1 = KE2 + PE2

in friction is involved

KE1 + PE1 + Work = KE2 + PE2

Work = Ff x d

Question 24

the formula for? mechanical advantage

Answer 24

F needed without machine / F needed with machine

Question 25

the formula for? momentum and impulse

Answer 25

p = mv

J = Δp = Δ(mv) = FΔt

I = ΔM = FΔt
I am fat

Question 26

what occurs in an inelastic collision

Answer 26

KE is not conserved
p is conserved
if perfectly inelastic, objects stick together

Question 27

first law of thermodynamics equation?

Answer 27

ΔE = Q - W

Q - heat - this is positive when heat flows into the system
W - work - this is positive when the system does work (e.g. a gas expanding and increasing volume)

Question 28

The work done by a gas?

Answer 28

W = PΔV

Question 29

what is an adiabatic process?

Answer 29

when Q=0

therefore ΔE = -W

Question 30

formula for density ?

Answer 30

ρ = mass / volume

measured in kg/m^3

Question 31

what is the density of water?

Answer 31

1000 Kg / m^3
1g / cm^3
1kg / L

Question 32

what is specific gravity?

Answer 32

s.g. = ρ / ρH2O

density relative to gravity

Question 33

weight of a fluid?

Answer 33

ρ = m / V
therefore, m = ρV

weight (w) = ρVg

Question 34

formula for pressure?

Answer 34

P = F / A measured in N / m^2 = Pa

Force must be perpendicular to object

Question 35

formula for hydrostatic gauge pressure

Answer 35

Pgauge = ρfluid x g x D

this is proportional to depth, total pressure is not

Question 36

formula for total pressure ?

Answer 36

P total = Pgauge + Psurface

Question 37

buoyant force formula? (Archimedes principle)

Answer 37

Fb = ρfluid x g x Vsubmerged

Question 38

for a floating object, what is true of the buoyant force?

Answer 38

w = Fb

mg = Fb

ρobject x Vobject x g = ρfluid x Vsubmerged x g

Question 39

for a floating object what is the relationship between the density of fluid and the object?

Answer 39

w = Fb

mg = Fb

ρobject x Vobject x g= ρfluid x Vsubmerged x g

Vobject / Vsub = = ρfluid / ρobject

Question 40

Formula for apparent weight of a submerged object?

Answer 40

Wapp = Wtrue - Fb

Question 41

Pascals law on fluids distributing external pressure?

Answer 41

F1 / A1 = F2 / A2

fluids perfectly distribute external pressures if they are confined

Question 42

list what makes an ideal fluid

Answer 42

1. incompressible (ρ is constant)
2. negligible viscosity
3. laminar flow
4. constant flow rate

Question 43

Bernoulli’s equation ?

Answer 43

P1 + 1/2ρv1^2 + ρgy1 = P2 etc…

Question 44

flow rate equation?

Answer 44

f = Av

Question 45

continuity law?

Answer 45

A1v1 = A2v2 if the fluid runs through the same pipe

Question 46

what is true of two fluids are at the same height?

Answer 46

the faster running fluid has less pressure

Question 47

Torcelli’s result for v-efflux?

Answer 47

this equation is used when a hole has been punctured in a container allowing fluid to leak from the bottom area. This equation explains velocity of efflux

v-efflux = (2gD)^1/2

square root of 2gD

Question 48

stress equation?

Answer 48

stress = F / A but force does not need to be perpendicular like it does in pressure

Question 49

what is the value of the elementary charge?

Answer 49

1.6 x 10^-19

Question 50

What is Coulomb’s Law?

Answer 50

Felec = kQq / r^2

K = 9 x 10^9

Question 51

formula for electric field due to a point charge?

Answer 51

E = KQ / r^2 where Q produces the field

Question 52

which direction does a negative charge move in an electric field produced by a source charge?

Answer 52

negative charge will move opposite the direction of the field

Question 53

formula for the force of an electric field?

Answer 53

F=qE where q feels the field.

Question 54

formula for electric potential (φ)?

Answer 54

φ = kq / r

Question 55

for electric potential (φ), where do positive charges move?

Answer 55

positive charges move to area’s of lower φ

negative charges move to area’s of higher φ

Question 56

change in electrical potential energy is equal too?

Answer 56

ΔPE = qΔφ where q is the charge that is moving through the electric potential

Question 57

work done by an electric field?

Answer 57

W = -ΔPE

Question 58

kinetic energy of a particle in a field

Answer 58

ΔKE = -ΔPE

Question 59

what is basic the formula for current?

Answer 59

I = Q / t

and note that often Q = # of electrons times e

Question 60

the formula for resistance relative to the wire?

Answer 60

R = p L/A

p = resistivity, not density

Question 61

the formula for Ohms law

Answer 61

V = IR

where R is equivalent resistance

Question 62

the formula for connecting two resistors in parallel to get Req?

Answer 62

R1R2 / R1 + R2

can’t do this with more than two at a time

Question 63

t or f, current is the same for resistors in series whereas voltage is the same for resistors in parallel.

Answer 63

true

Question 64

what are the two main Kirchhoff rules

Answer 64

1. junction rule –> current into a junction must equal current out
2. voltage rule –> voltage drop of all resistors must sum up to the voltage gain of the battery

Question 65

the formula for power dissipated by a circuit element.

where P = x = y = z

Answer 65

P = IV = I^2R = V^2 / R

just remember P = IV and then use V = IR to switch the terms

Question 66

t or f, total power supplied to the circuit is equal to total power dissipated by the R’s?

Answer 66

true

Question 67

true or false, the ground is at a potential of 0

Answer 67

true

Question 68

the basic formula for a parallel plate capacitor?

Answer 68

Q = CV

Note: C is a constant therefore you can’t find it with this equation.

Question 69

the formula for capacitance of a capacitor

Answer 69

C = K ε0 A / d

where K is the dielectric number
ε0 is the permittivity of free space constant

Question 70

t or f, K can be less than 1

Answer 70

false. K is always greater than 1 and therefore, when a dielectric insulator is present, it increases the capacitance always
C = K ε0 A / d

Question 71

what occurs when

1. keep battery attached, insert dielectric
2. disconnect the battery, insert dielectric

Answer 71

1. keep battery attached, insert dielectric –> keeping it connected means voltage is constant. Since the dielectric is added, C increases. According to Q = CV, if C increases, but V stays the same, Q must increase.
2. disconnect the battery, insert dielectric –> disconnecting it Q is constant. Since the dielectric is added, C increases. According to Q = CV, if C increases, but Q stays the same, V must decrease.

Question 72

the formula for an electric field produced by a capacitor (which is uniform)

Answer 72

V = Ed

Question 73

the formula for potential energy stored in a capacitor

Answer 73

PE = 1/2 QV

using Q = CV we can rearrange to

PE = 1/2 QV = 1/2CV^2 = Q^2 / 2C

Question 74

t or f, the work done by a battery to charge a capacitor is equal to PE

Answer 74

true

Question 75

t or f, capacitors have the same rules for capacitor equivalence (Ceq) as resistors do for equivalent resistor (Req)

Answer 75

false –> they are opposite

e.g. capacitors in series are added by their inverses

Question 76

the formula for magnetic force

Answer 76

Fb = qvBsinθ

θ is in between v and B
if v and B are parallel, sinθ is 0, no force felt

if the charge is not moving, no force felt either

Question 77

t of f, Fb is always perpendicular to B and v

Answer 77

true

Question 78

t or f, in a solenoid, B is proportional to I and N/L

Answer 78

true

Question 79

what is B proportional to when created by a long straight wire

Answer 79

B varies with I / r

r is distance from the wire

Question 80

can a magentic force do work?

Answer 80

no!!! therefore is does not change the speed of the charge ever - only the direction

Question 81

what is hookes law?

Answer 81

F = -kx

x = displacement 
k = spring constant

Question 82

what is the elastic potential energy of a spring equation?

Answer 82

PE = 1/2kx^2

Question 83

simple pendulum formula for frequency?

Answer 83

f = 1/2pi x squareroot (g / L)

Question 84

wave equation?

Answer 84

v = f x λ

Question 85

true or false, speed is dependent on λ and f

Answer 85

false!! although v = f x λ, speed depends on the medium it travels through and NOT on f or λ

therefore, if we change f then λ changes in the opposite way

Question 86

how does v, f, and λ change when a wave changes media?

Answer 86

recall: wave speed is dependent on the medium

therefore v changes

NOTE: frequency always remains constant for a media change.

if frequency remains constant but v changes, λ must be proportional to v

v = f x λ

Question 87

the equation for the wavelength of a standing wave?

Answer 87

λn = 2L / n

where n = the # of nodes - 1
where n = the number of harmonics (1/2 wavelengths)

Question 88

what is the fundamental wavelength?

Answer 88

this is the wavelength of one harmonic, i.e. when n of λn = 2L / n is equal to 1.

if we know this value then we can simply multiply this wavelength by any integer to find any other harmonic

Question 89

t or f, we can take λn = 2L / n and combine it with v = f x λ to get the harmonic frequency

Answer 89

true

Question 90

t or f, λn = λ1 / n

and

fn = f1 /n

Answer 90

false,

λn = λ1/n is correct since if we extend the number of nodes over a distance L, the wavelength must be decreasing

(fn = f1 /n is incorrect) –> fn = f1 x n is correct since if wavelength is decreasing (above) then frequency must be increasing.

Question 91

What is the formula for the harmonic wavelength for sound waves in an open pipe?

Answer 91

Each end of an open pipe is considered an anti-node

therefore, this is similar to a transverse standing wave.

λn = 2L / n

where n is the number of half wave lengths

Question 92

What is the formula for the harmonic wavelength for sound waves in an closed pipe?

Answer 92

the closed en of the pipe is a node while the open side is an anti-node.

λn = 4L / n

BUT n can only be odd numbers (1,3,5, etc.)

Question 93

what is beat frequency?

Answer 93

fbeat = f |f1 - f2|

absolute value is necessary

Question 94

the formula for sound intensity

Answer 94

I = P / A 
I = j/s / m^2

Question 95

what 2 important factors does sound intensity vary by?

Answer 95

since most sources produce sound that permeates a sphere, A = 4 pi r^2

therefore I varies with 1/r^2

I = P / A

power is a measure of energy and wave energy increases with amplitude
therefore, intensity varies with amplitude

Question 96

what is the formula for sound level / intensity level?

Answer 96

B = 10 log (I / Io)
measured in decibels (remove the multiple of 10 and its just bels)
Io = the threshold of hearing = 10^-12 W / m^2

Question 97

what two rules govern the equation B = 10 log (I / Io) in terms of manipulating I?

Answer 97

If we multiply I by 10 we add 10 to B

If we divide I by 10 we subtract 10 from B

Question 98

if the intensity of a sound increases by 100, how did the sound level change?

Answer 98

sound level = intensity level

if intensity increased by 100 then it was multiplied by 10 twice (10 x 10 = 100). therefore B must have increased by 20dB

Question 99

Doppler effect: when the source and the detector are..

a. approaching
b. receding

how does the perceived frequency change?

Answer 99

a. approaching –> when the distance between them is getting smaller the perceived frequency increases
b. receding –> when the distance between them is getting larger the perceived frequency decreases

Question 100

what is the doppler equation?

Answer 100

(v +/- vd)
fd = fs ———-
(v -/+ vs)

fd = perceived frequency of detector
fs = source frequency 
vd = speed of detector 
vs = speed of source
v = speed of wave (340 m/s for sound)

Question 101

explain the logic for when the source and the detector are both moving away from each other using the equation.

Answer 101

(v +/- vd)
fd = fs ———-
(v -/+ vs)

if relative motion is away, then we know fd < fs
therefore the fraction must be as small as possible for this to hold true

therefore: v - vd
and
v + vd

note also the way the signs are positioned.
also may think top sign means toward

Question 102

when a detector moves relative to a stationary source what changes out of
v
f
λ

Answer 102

when the detector moves, he’s changing his relative speed. Since the source is still, the wavelength fronts are the same

for v to change but λ to stay the same f must change too

e. g.
approaching: detector approaches the sound then the relative speed increases and so does the perceived frequency.

Question 103

when a source moves relative to a stationary detector what changes out of
v
f
λ

Answer 103

when a source moves, the speed must stay the same. However, the moving source changes the wavelengths.

for wavelength to stay change while speed stays the same f must change too.

approaching: source approaches the detector then the wavelength is decreasing and so the frequency must increase

Question 104

which waves require a medium out of

electromagnetic
sound
rope

Answer 104

electromagnetic - does not need a medium to propagate
sound - needs media
rope - needs media

Question 105

t or f, sound waves are longitudinal and EM waves are transverse

Answer 105

true

Question 106

t or f, the speed of an EM wave is the same regardless of the frequency in a vacuum and in a medium

Answer 106

false

the speed of an EM wave is the same regardless of the frequency in a vacuum

however, the speed is slightly different for each frequency in a medium. this accounts for dispersion of waves (prism)

Question 107

what is the order from shortest to longest wavelength of EM waves

Answer 107

gamma rays < x rays < UV light < VBGYOR < IR waves < microwaves < radiowaves

Question 108

EM waves: when is energy proportional to amplitude and when is it proportional to frequency?

Answer 108

as a wave - amplitude squared

as a particle / photon - frequency

Question 109

what is the energy of a photon equation

Answer 109

E = hf

E = h c/λ

h = 6.6 x 10^-34

Question 110

law of reflection: where is the angle measured

Answer 110

between the incidence ray and the normal (perpendicular line from the surface the ray is hitting)

Question 111

t or f, the angle for refraction is also measured from the normal

Answer 111

true

Question 112

t or f, media slows down EM waves

Answer 112

true

Question 113

what is a mediums index of refraction

Answer 113

this is a measure of how much the medium slows down the EM wave.
speed in vacuum
IoR = ———————–
speed in medium

n = c / v

the bigger the n value, the more the medium slows down light

Question 114

what is Snells law (equation)

Answer 114

n1sinθ1 = n2sinθ2

Question 115

If n1 > n2 what is true about the θ’s? draw it.

Answer 115

if n1 > n2, and n1sinθ1 = n2sinθ2

then θ1 must be less than θ2 by Snell’s law

therefore when light travels from a slower medium (n1 in this case) to a faster medium (n2 in this case) then θ of refraction must be bigger then θ of incidence and therefore light bends away from the normal

Question 116

when can total internal reflection occur?

Answer 116

ONLY when the second medium has a lower n value then the first medium. Think of when light tries to leave water into air.

Question 117

what is the critical angle

Answer 117

the angle of incidence at which total internal reflection is about to occur. at the critical angle, light refracts along the media boundary making θ = 90 degrees with the normal. (draw it). if the angle of incidence exceeds the critical angle, then TIR will occur

Question 118

what is the formula for the critical angle?

Answer 118

sinθ = n2 / n1

θ = critical angle

Question 119

what is diffraction?

Answer 119

when light passes through a slit of similar size to the lights wavelength. the light will bend

Question 120

what is polarization

Answer 120

when light has a restricted direction of electric fields

Question 121

what is dispersion

Answer 121

when light is refracted through a medium in which the individual colours are refracted slightly differently due to slightly different speeds (since it is in a medium).

Question 122

what colour is refracted (bent) the least in dispersion?

Answer 122

red

Question 123

what is the equation for the focal length?

Answer 123

f = 1/2r

r = radius of the theoretical circle that a mirror / lens creates

Question 124

mirrors: objects very distant from the mirror will have light rays converging?

Answer 124

at the focal point

Question 125

mirrors: for a concave mirror, if the object is close but further away then the focal point the image will be real and the rays will intersect behind the focal point. If the object is within the focal point and the mirror, the image is virtual since lines intersect behind the mirror. t or f

Answer 125

true

Question 126

mirrors: what is a real image? what is the value of i? virtual images?

Answer 126

if the rays actually intersect then the image is real and i is positive. if the rays theoretically intersect (like a convex mirror) then the image is virtual and i is negative.

Question 127

what is the mirror equation?

Answer 127

1/f = 1/o + 1/i

note: o is always positive - distance the object is from mirror

i - distance of image from mirror

Question 128

when is i and f positive for mirrors and lenses?

Answer 128

when the observer is on the same side as the image, the image is real and positive.
draw a mirror and lens to see

Question 129

magnification equation?

Answer 129

m = -i / o

think: if i is positive, then the image is real, which means the observer is on the same side as the image.

real image then must be inverted since m is negative

Question 130

t or f virtual images are upright images

Answer 130

true, since i of a virtual image is negative and

m = -i/o

Question 131

how can we find the height of the image?

Answer 131

multiply the height of the object by the magnification number

Question 132

concave mirrors
concave lenses
convex mirrors
convex lenses

list whether the focal length is +/- for each.

Answer 132

a focal length is positive if the image results from the actual intersection of rays

concave mirrors –> positive
concave lenses –> (diverging lens) –> negative
convex mirrors –> negative
convex lenses –> (converging lens) –> positive

Question 133

plane mirrors produce what kind of image?

Answer 133

a virtual image (therefore a negative i value, upright image)

Question 134

t or f, the equations for mirrors apply to lenses

Answer 134

true

Question 135

what is lens power and what is its equation?

Answer 135

lens power explains how strong a lens bends light. the more it bends light the more power has

P = 1 / f

focal length (f) must be in meters

unit = diopters (D)

Question 136

what unit for focal length do we use for lens power

Answer 136

meters

Question 137

t or f, for consecutive lenses we add the powers

Answer 137

true and note that negative power does exist. for example, a diverging/concave lens has a negative focal length and thus negative power

Question 138

what is myopia?
what do they see
where do rays converge
how do we correct it

Answer 138

myopia = shortsightedness

people can see nearby things
the rays converge before the retina
corrected with a diverging lens

Question 139

what is hyperopia?
what do they see
where do rays converge
how do we correct it

Answer 139

hyperopia = farsightedness

people can see far away things
the rays converge after the retina
corrected with a converging lens

Question 140

Stats: what is the mean?

Answer 140

the average of a sample. here you sum up all the values and divide by the number of components.

the mean is not necessarily a number seen in the sample

Question 141

Stats: what is the median?

Answer 141

the middle number in the data set. put the numbers in consecutive order and find the one literally in the middle.

If there is an even amount of numbers, we then average the two closest to the middle

XXYYXX –> we average the Y’s

Question 142

Stats: what is the mode?

Answer 142

the most frequently recurring number in a data set.

32, 65, 66, 67, 68, 68, 69, 70, 70, 70, 70 ,71

70 is the mode

Question 143

Stats: what is the mode for a sequence of numbers that never repeat?

Answer 143

if no numbers occur more than once, there is no mode!!

Question 144

Stats: what is the standard deviation?

Answer 144

it is a measure of how much each individual number differs from the mean

Question 145

Stats: for standard deviation, what is a normal distribution?

Answer 145

large sets of data form a symmetrical, bell shaped curve when graphed by frequency (# of instances).

the measure is on the y axis (weight, grades, etc) and the frequency is on the x

Question 146

Stats: what is a low standard deviation?

Answer 146

most data points are close to and similar to the mean

Question 147

Stats: what is a high standard deviation?

Answer 147

data is more spread out

Question 148

Stats: what is the significance of the values 34%, 68%, and 13.6%?`

Answer 148

a normal distribution has a set structure. We can therefore break up the graph into chunks of certain meaning.

34% of components fall 1 S.D. above the mean
34% of components fall 1 S.D. below the mean
thus, 68% of components fall within 1 S.D. of them mean.

13.6% of components fall between 1 and 2 S.D.’s and so on.

Question 149

Stats: t or f, for a normal distribution, essentially all data falls within 3 standard deviations of the mean

Answer 149

true

Question 150

Stats: what is an independent and dependent variable?

Answer 150

dependent variable is a function of the independent variable.

Question 151

Stats: what is statistical power?

Answer 151

statistical power is the likelihood that you have enough subjects to accurately prove your hypothesis is true within an acceptable margin of error

small sample sizes influence this

Question 152

Stats: what is sampling bias?

Answer 152

when a group of people being tested was not randomly selected and therefore may unintentionally skew results.

Question 153

Stats: what is

specific real area bias
self-selection bias
pre-screening / advertising bias
healthy user bias

Answer 153

these are all forms of sampling bias

specific real area bias –> when you select people close in proximity. (like standing in the arc where you get extrovert answers but no introvert answers)

self-selection bias –> when the study allows people to choose to participate or not (like surveys which may only reach out to highly opinionated people on the topic)

pre-screening / advertising bias –> volunteers how succumb to advertising of a research may acquire only people highly motivated in the research. e.g. smoking cessation may only get people who are v serious about quitting

healthy user bias –> when the study population is likely healthier than the general population.

Question 154

Stats: t test measures what? whats important about it?

Answer 154

t test measures significance of a correlation between stats.

significant findings have a p value of less than 0.05

Question 155

Stats: what is inter-rater reliability?

Answer 155

when two separate raters (researchers) examine someone, they should have similar findings for the same study.

Question 156

what are confounding factors?

Answer 156

these are hidden variables not directly tested for, that correlate in some way with either the independent or dependent variable and thus may impact results.

this may effect internal validity –> can we prove a causal relationship between the two variables being tested

Question 157

Stats: what is external validity?

Answer 157

this is asking if we can take the info of the study and generalize it to other situations.