Technical Physics Chapter 1

Conversion Factors: cm ^3 -> ml

1 cm ^3 = 1 mL

Significant figure rules

1. All non-zeros are significant. Ex: 12.12 has 4 sig figs. 2. All zeros between non-zeros are significant. Ex: 1203.03 has 6 sig figs. 3. For #'s less than 1: all zeros to the left of the 1st nonzero are NOT significant. Ex: 0.000620014 has 6 sig figs. 4. For every # with a decimal, all zeros expressed to the right of a # are significant. Ex: 0.073500 has 5 sig figs. 73500.00 has 7 sig figs. 5. When a # has no decimal, we must assume the significant numbers end when the trailing zeros begin. Ex: 73500 has 3 sig figs.

Conversion Factors: qt -> lt

1.06 qt = 1 lt

conversion factors: km -> mi

1.609 km = 1 mi

US units: in -> ft

12 in = 1 ft

US units: oz -> lb

16 oz= 1 lb

Conversion Factors: lb -> kg

2.2 lbs = 1 Kg

Conversion Factors: cm -> in

2.54 cm = 1 in

US units: lbs -> tons

2000 lbs = 1 ton

US units: ft -> yd

3 ft= 1 yd

Conversion Factors: ft -> meters

3.281 ft = 1 m

Gravity

32 ft/s^2 or (.8 m/s^2

US units: s -> hr

3600 s = 1 hr

US units: qt -> gal

4 qt = 1 gal

Conversion Factors: N -> lbs

4.445 N = 1 lb

Conversion Factors: g -> lb

454 g = 1 lb

US units: ft -> mi

5280 ft = 1 mi

Conversion Factors: mL -> qt

946 mL = 1 qt

weight

A measure of the force of gravity on an object (mass x gravity)

Significant Figure opperations

Add/ subtract: round to the least decimal places Multiply/ divide: round to the least sig figs Rounding: <5- stays the same >5- round up =5: followed by other numbers: round up followed by 0: stays the same

USCS

US Customary System, ft, slug, seconds

Measurement

a comparison between an unknown quantity and a standard

standard

a fixed, reproducible unit

Exponent opperations

add/subtract: exponents must be the same multiplying: add exponents Dividing: subtract exponents Raising exponents to a power: multiply exponents

second

based off the period of oscillation of a cessium 153 atom

CgS

centimeter, gram, second

Meter

distance light travels when it travels at the speed of light in 1 second ( 3x10^8 m/s)

Derived Units: speed

distance/ time= m/s

Derived Units: acceleration

distance/ time^2 = m/s^2

Derived Units: Volume

l x w x h= cm^3

Derived Units: Area

l x w= cm^2

Derived units: Force

mass x acceleration

Derived Units: weight

mass x gravity

Derived Units: Density

mass/ volume (g/cm^3)

MKS

meters, kilograms, seconds

Scientific notation

negative exponent: decimal moves left positive exponent: decimal moves right

mass

the amount of matter in an object