This document contains an index of subjects and authors. It lists various physics concepts, scientists, and their associated page numbers. Some entries include acceleration, electricity, heat, light, mass, motion, Newton, Ohm, temperature, and more. The index contains concepts discussed in a physics textbook for high school or equivalent level students.
Description of findings from the Adaptation Road Map for Lao from the Decision and Policy Analysis Program from the International Centre for Tropical Agriculture (CIAT).
Description of findings from the Adaptation Road Map for Lao from the Decision and Policy Analysis Program from the International Centre for Tropical Agriculture (CIAT).
A world of adventure at Tea Trails - 5 exotic experiences you can't miss!Radev Liyanage
Immerse yourself in the luxurious experience that Tea Trails has to offer. Explore the trails through leisure walks, adventure treks or biking and play a game of croquet and tennis. Find out all you can do at Tea Trails, the world's first tea bungalow resort with a memorable Tea experience. #Travel #SriLanka #TeaTrails
Retail Therapy: Calculating intelligent investment & implementation strategie...Bernard E. McKeown
A significant percentage of real estate assets in England and Wales are exposed to a valuation risk as a result of the introduction of Minimum Energy Efficiency Standards (MEES) under the Energy Act 2011.
MEES will be of concern to those responsible for managing existing debt and new lending. A system capable of identifying and managing risk (and maximising opportunities) will be needed by lending institutions if, as expected, the UK parliament approves the legislation before the election.
Introduction to MEES
The requirement for MEES means the largest landlords in the country are being forced to reassess the energy performance of buildings. Legislation has, for the first time, created a mechanism for valuing energy efficiency.
On 4 February 2015 DECC issued its response to its consultation on MEES and laid before parliament its recommendations: by 1 April 2018 landlords will have to undertake energy efficiency improvements as outlined in regulations. Energy efficiency will be defined by an Energy Performance Certificate (EPC), and qualifying improvements must be implemented.
From 1 April 2018 MEES will apply to new lettings and to lease renewals or lease extensions where there is an EPC. From 1 April 2023 it is to apply to all property. The possible effects on valuation differ depending on whether a lease is afforded security of tenure by the Landlord & Tenant Act of 1954 (part II) as amended. Where there is the case and there is an EPC, a property is affected as soon as parliament passes the legislation.
DECC has advised the minimum EPC rating will be an E. If a property has an EPC rating worse than an E then, before it can be let or when its lease is renewed or extended, the landlord will have to get an assessment carried out. Any works that pass one of the two viability tests must be implemented - even if the EPC rating does not subsequently improve.
This has the potential to impact on asset value, as the cost of compliance can be quantified by works identified by an assessor. In addition, it is not only the direct costs of works which needs to be considered but also the indirect costs. It is not always possible to undertake improvements without disruption, especially so in multiple-let buildings. An asset manager may have to start to schedule improvements around the leasing cycle instead of the maintenance cycle and this may have implications in terms of service charge recovery.
How can we help?
CO2 Estates offers an innovative, unique and cost-effective software solution to allow institutions, funds and REITs to manage risk and capitalise on opportunities as a result of MEES.
Our software has been developed over two years working in collaboration with some of the world’s largest REITS. As a result we have developed a solution capable of working at scale to deliver corporate real estate benchmarking, improvement analysis and energy-led retrofit strategies to help maximise the financial performance of large property portfolios
Tài liệu 1: The Official Guide For GMAT Review 10th Edition
Tài liệu The Official Guide For GMAT Review 10th Edition cung cấp các kiểu câu hỏi về định lượng, tính toán và luyện tập chuyên sâu
gồm hơn 1400 câu hỏi và đáp án có giải thích GMAT, các chiến lược và mẹo làm bài thi. Tài liệu cũng chứa nhiều thông tin về Lập luận và Phân tích...
CONVERSIONS TO USE
METRIC PREFIXES
This table uses liters (L) as the base unit, but you can use this table for ANY base unit. For example, 1 s = 1×106 µs.
OR Base Unit Prefix
OR
OR
OR
OR
OR
OR
OR
OR
OR
NOTE: Two equivalence statements are written for each prefix. Either is equally correct (they are exactly the
same). Use whichever makes more sense to you.
OTHER CONVERSIONS
All of these are exact numbers except those marked with *
METRIC tt METRIC ENGLISH tt
ENGLISH
ENGLISH tt
METRIC
LENGTH 1 cm = 1×108 Å
(Å is the symbol for
angstroms)
12 in. = 1 ft.
3 ft. = 1 yd.
5280 ft. = 1 mi.
1 in. = 2.54 cm
1 mile = 1.609 km*
MASS / WEIGHT 1000 kg = 1 metric ton 2000 lb. = 1 ton
16 oz. = 1 lb.
1 lb. = 453.6 g*
VOLUME 1 L = 1 dm3
1 mL = 1 cm3
1000 L = 1 m3
3 tsp. = 1 Tbsp.
16 Tbsp. = 1 cup
2 cups = 1 pint
2 pints = 1 quart
4 quarts = 1 gal.
8 fluid oz. = 1 cup
1 qt. = 0.9464 L*
1 fluid oz. = 29.57 mL*
1 ft3 = 28.32 L*
TEMPERATURE TK = TC + 273.15 TF = 1.8(TC) + 32
TC = (TF - 32) / 1.8
ENERGY 1 cal = 4.184 J
NOTE: The ounces that measure mass are completely different from and unrelated to the fluid
ounces that measure volume.
DO NOT WRITE ON THIS SHEET
DO NOT WRITE ON THIS SHEET
Symbol Meaning Base Unit Prefix
giga, G billion 1 L = 1×10–9 GL
mega, M million 1 L = 1×10–6 ML
kilo, k thousand 1 L = 0.001 kL
deci, d tenth 1 L = 10 dL
centi, c hundredth 1 L = 100 cL
milli, m thousandth 1 L = 1000 mL
micro, µ millionth 1 L = 1×106 µL
nano, n billionth 1 L = 1×109 nL
pico, p trillionth 1 L = 1×1012 pL
1×109 L = 1 GL
1×106 L = 1 ML
1000 L = 1 kL
0.1 L = 1 dL
0.01 L = 1 cL
0.001 L = 1 mL
1×10–6 L = 1 µL
1×10–9 L = 1 nL
1×10–12 L = 1 pL
SOME CONSTANTS AND EQUATIONS
density =
mass
volume
mass % element in a compound = g element
g compound
⨯ 100
c = speed of light = 3.00x108 m/s
Ephoton = h Planck’s constant = 6.626x10–34 J´s
E = hc
λ
Avogadro’s Number = 6.022x1023
ELECTROMAGNETIC SPECTRUM
ELECTRONEGATIVITIES FOR SOME OF THE ELEMENTS
H
2.1
Li
1.0
Be
1.5
B
2.0
C
2.5
N
3.0
O
3.5
F
4.0
Na
0.9
Mg
1.2
Al
1.5
Si
1.8
P
2.1
S
2.5
Cl
3.0
K
0.8
Ca
1.0
Sc
1.3
Ti
1.5
V
1.6
Cr
1.6
Mn
1.5
Fe
1.8
Co
1.9
Ni
1.9
Cu
1.9
Zn
1.6
Ga
1.6
Ge
1.8
As
2.0
Se
2.4
Br
2.8
Rb
0.8
Sr
1.0
Y
1.2
Zr
1.4
Nb
1.6
Mo
1.8
Tc
1.9
Ru
2.2
Rh
2.2
Pd
2.2
Ag
1.9
Cd
1.7
In
1.7
Sn
1.8
Sb
1.9
Te
2.1
I
2.5
Cs
0.7
Ba
0.9
La
1.0
Hf
1.3
Ta
1.5
W
1.7
Re
1.9
Os
2.2
Ir
2.2
Pt
2.2
Au
2.4
Hg
1.9
Tl
1.8
Pb
1.9
Bi
1.9
Po
2.0
At
2.2
Hp
0.7
Hm
0.8
Ws
1.0
Ss
1.2
Lp
1.3
Bl
1.5
Ad
1.7
Nv
1.9
Le
2.0
Mc
2.1
Rs
2.3
Gh
1.8
An
1.8
Fd
1.9
Sw
1.9
Gm
2.0
Gf
2.1
DO NOT WRITE ...
Engineering Project involving design,manufacturing, testing of Fins( Heat exchanger for 2 wheeler). An analysis of heat transfer on fins with various geometrical perforations.
A world of adventure at Tea Trails - 5 exotic experiences you can't miss!Radev Liyanage
Immerse yourself in the luxurious experience that Tea Trails has to offer. Explore the trails through leisure walks, adventure treks or biking and play a game of croquet and tennis. Find out all you can do at Tea Trails, the world's first tea bungalow resort with a memorable Tea experience. #Travel #SriLanka #TeaTrails
Retail Therapy: Calculating intelligent investment & implementation strategie...Bernard E. McKeown
A significant percentage of real estate assets in England and Wales are exposed to a valuation risk as a result of the introduction of Minimum Energy Efficiency Standards (MEES) under the Energy Act 2011.
MEES will be of concern to those responsible for managing existing debt and new lending. A system capable of identifying and managing risk (and maximising opportunities) will be needed by lending institutions if, as expected, the UK parliament approves the legislation before the election.
Introduction to MEES
The requirement for MEES means the largest landlords in the country are being forced to reassess the energy performance of buildings. Legislation has, for the first time, created a mechanism for valuing energy efficiency.
On 4 February 2015 DECC issued its response to its consultation on MEES and laid before parliament its recommendations: by 1 April 2018 landlords will have to undertake energy efficiency improvements as outlined in regulations. Energy efficiency will be defined by an Energy Performance Certificate (EPC), and qualifying improvements must be implemented.
From 1 April 2018 MEES will apply to new lettings and to lease renewals or lease extensions where there is an EPC. From 1 April 2023 it is to apply to all property. The possible effects on valuation differ depending on whether a lease is afforded security of tenure by the Landlord & Tenant Act of 1954 (part II) as amended. Where there is the case and there is an EPC, a property is affected as soon as parliament passes the legislation.
DECC has advised the minimum EPC rating will be an E. If a property has an EPC rating worse than an E then, before it can be let or when its lease is renewed or extended, the landlord will have to get an assessment carried out. Any works that pass one of the two viability tests must be implemented - even if the EPC rating does not subsequently improve.
This has the potential to impact on asset value, as the cost of compliance can be quantified by works identified by an assessor. In addition, it is not only the direct costs of works which needs to be considered but also the indirect costs. It is not always possible to undertake improvements without disruption, especially so in multiple-let buildings. An asset manager may have to start to schedule improvements around the leasing cycle instead of the maintenance cycle and this may have implications in terms of service charge recovery.
How can we help?
CO2 Estates offers an innovative, unique and cost-effective software solution to allow institutions, funds and REITs to manage risk and capitalise on opportunities as a result of MEES.
Our software has been developed over two years working in collaboration with some of the world’s largest REITS. As a result we have developed a solution capable of working at scale to deliver corporate real estate benchmarking, improvement analysis and energy-led retrofit strategies to help maximise the financial performance of large property portfolios
Tài liệu 1: The Official Guide For GMAT Review 10th Edition
Tài liệu The Official Guide For GMAT Review 10th Edition cung cấp các kiểu câu hỏi về định lượng, tính toán và luyện tập chuyên sâu
gồm hơn 1400 câu hỏi và đáp án có giải thích GMAT, các chiến lược và mẹo làm bài thi. Tài liệu cũng chứa nhiều thông tin về Lập luận và Phân tích...
CONVERSIONS TO USE
METRIC PREFIXES
This table uses liters (L) as the base unit, but you can use this table for ANY base unit. For example, 1 s = 1×106 µs.
OR Base Unit Prefix
OR
OR
OR
OR
OR
OR
OR
OR
OR
NOTE: Two equivalence statements are written for each prefix. Either is equally correct (they are exactly the
same). Use whichever makes more sense to you.
OTHER CONVERSIONS
All of these are exact numbers except those marked with *
METRIC tt METRIC ENGLISH tt
ENGLISH
ENGLISH tt
METRIC
LENGTH 1 cm = 1×108 Å
(Å is the symbol for
angstroms)
12 in. = 1 ft.
3 ft. = 1 yd.
5280 ft. = 1 mi.
1 in. = 2.54 cm
1 mile = 1.609 km*
MASS / WEIGHT 1000 kg = 1 metric ton 2000 lb. = 1 ton
16 oz. = 1 lb.
1 lb. = 453.6 g*
VOLUME 1 L = 1 dm3
1 mL = 1 cm3
1000 L = 1 m3
3 tsp. = 1 Tbsp.
16 Tbsp. = 1 cup
2 cups = 1 pint
2 pints = 1 quart
4 quarts = 1 gal.
8 fluid oz. = 1 cup
1 qt. = 0.9464 L*
1 fluid oz. = 29.57 mL*
1 ft3 = 28.32 L*
TEMPERATURE TK = TC + 273.15 TF = 1.8(TC) + 32
TC = (TF - 32) / 1.8
ENERGY 1 cal = 4.184 J
NOTE: The ounces that measure mass are completely different from and unrelated to the fluid
ounces that measure volume.
DO NOT WRITE ON THIS SHEET
DO NOT WRITE ON THIS SHEET
Symbol Meaning Base Unit Prefix
giga, G billion 1 L = 1×10–9 GL
mega, M million 1 L = 1×10–6 ML
kilo, k thousand 1 L = 0.001 kL
deci, d tenth 1 L = 10 dL
centi, c hundredth 1 L = 100 cL
milli, m thousandth 1 L = 1000 mL
micro, µ millionth 1 L = 1×106 µL
nano, n billionth 1 L = 1×109 nL
pico, p trillionth 1 L = 1×1012 pL
1×109 L = 1 GL
1×106 L = 1 ML
1000 L = 1 kL
0.1 L = 1 dL
0.01 L = 1 cL
0.001 L = 1 mL
1×10–6 L = 1 µL
1×10–9 L = 1 nL
1×10–12 L = 1 pL
SOME CONSTANTS AND EQUATIONS
density =
mass
volume
mass % element in a compound = g element
g compound
⨯ 100
c = speed of light = 3.00x108 m/s
Ephoton = h Planck’s constant = 6.626x10–34 J´s
E = hc
λ
Avogadro’s Number = 6.022x1023
ELECTROMAGNETIC SPECTRUM
ELECTRONEGATIVITIES FOR SOME OF THE ELEMENTS
H
2.1
Li
1.0
Be
1.5
B
2.0
C
2.5
N
3.0
O
3.5
F
4.0
Na
0.9
Mg
1.2
Al
1.5
Si
1.8
P
2.1
S
2.5
Cl
3.0
K
0.8
Ca
1.0
Sc
1.3
Ti
1.5
V
1.6
Cr
1.6
Mn
1.5
Fe
1.8
Co
1.9
Ni
1.9
Cu
1.9
Zn
1.6
Ga
1.6
Ge
1.8
As
2.0
Se
2.4
Br
2.8
Rb
0.8
Sr
1.0
Y
1.2
Zr
1.4
Nb
1.6
Mo
1.8
Tc
1.9
Ru
2.2
Rh
2.2
Pd
2.2
Ag
1.9
Cd
1.7
In
1.7
Sn
1.8
Sb
1.9
Te
2.1
I
2.5
Cs
0.7
Ba
0.9
La
1.0
Hf
1.3
Ta
1.5
W
1.7
Re
1.9
Os
2.2
Ir
2.2
Pt
2.2
Au
2.4
Hg
1.9
Tl
1.8
Pb
1.9
Bi
1.9
Po
2.0
At
2.2
Hp
0.7
Hm
0.8
Ws
1.0
Ss
1.2
Lp
1.3
Bl
1.5
Ad
1.7
Nv
1.9
Le
2.0
Mc
2.1
Rs
2.3
Gh
1.8
An
1.8
Fd
1.9
Sw
1.9
Gm
2.0
Gf
2.1
DO NOT WRITE ...
Engineering Project involving design,manufacturing, testing of Fins( Heat exchanger for 2 wheeler). An analysis of heat transfer on fins with various geometrical perforations.
Concrete company can save quality check time of 3 minutes from concrete batch of 20 minutes and hence will help to increase efficiency. Data is taken according to standards mentioned in the slides.
3. Lampiran 257
Alpha $
Qb Upsilon
D
Beta
T4 Theta
%E
Gamma
*J
Delta
‘G
Epsilon
(H
Zeta
=9
Eta
+K
Iota
,L
Kappa
.N
Lambda
/O
Mu
0P
Nu
1X
Xi
;[
Omcron
2R
Pi
3S
Rho
5U
Sigma
6V
Tau
7W
Phi
)I
Chi
&F
Psi
<
Omega
:Z
Nama
Alfabet Yunani
Huruf
Besar
Huruf
Kecil
Nama Huruf
Besar
Huruf
Kecil
Lampiran
4. Bilangan-Bilangan Konstanta
Nama Besaran Simbol Harga
Kecepatan cahaya dalam vakum
Muatan elektron
Massa diam elektron
Perbandingan muatan elektron terhadap
massanya
Konstanta Planck
Konstanta Boltzmann
Bilangan Avogadro (skala kimia)
Konstanta universal gas (skala kimia)
Kesetaraan mekanikal dari panas
Standar tekanan atmosfir
Volume gas sempurna pada 0° C dan
1 atm (skala kimia)
Suhu nol mutlak
Percepatan akibat gaya berat (pada muka
laut di khatulistiwa)
Konstanta universal gravitasi
Massa bumi
Radius bumi rata-rata
Radius khatulistiwa bumi
Jarak rata-rata dari bumi ke matahari
Eksentrik orbit bumi
Jarak pukul-rata dari bumi ke bulan
Diameter matahari
Massa matahari
Konstanta hukum Coulomb
Konstanta Faraday (1 faraday)
Massa atom hidrogen netral
Massa proton
Massa neutron
Massa elektron
Perbandingan massa proton terhadap
massa elektron
Konstanta Rydberg untuk inti partikel
yang kecil sekali
Konstanta Rydberg untuk hidrogen
Konstanta hukum pergeseran Wien
Konstanta bilangan
258 Fisika SMA/MA Kelas X
c
qe
me
qe/me
h
k
No
R
y
1 atm
–
0 K
g
G
mE
_
–
1 AU
–
–
_
mS
C
F
mH
1
mp
mn
me
mp/me
RH
–
_
2,9979 108 ms–1
–1,602 10–19 C = –4,803 10–10 stC
9,108 10–31 kg
1,759 1011 C kg–1 = 5,273 1017 stC g–1
6,625 10–34 Js
1,380 10–23 JK–1
6,023 1023 molekul mol –1
8,314 J mol–1 K–1
4,185 103 J kal –1
1,013 105 N m–2
22,415 lliter mol –1
–273,16o C
9,78049 ms–2
6,673 10–11 Nm2 kg–2
5,975 1024 kg
6,371 106m = 3.959 mil
6,378 106 m = 3.963 mil
1,49 1011 m = 9,29 107 mil
0,0167
3,84 108 = 60 radius bumi
1,39 109 = 8,64 105 mil
1,99 1030 kg = 333.000 massa bumi
8,98 109 Nm2C–2
96.500 C mol–1
1,008142 amu
1,007593 amu
1,008982 amu
5,488 10–4 amu
1836,12
109.737 cm–1
109.678 cm–1
0,2898 cmK–1
=3,142; e = 2,718; = 1,414