A runner achieves a velocity of 11.1 m/s 9 seconds after he begins. What is his acceleration? What distance did he cover?

Answers

Answer 1

Answer: $Acceleration=\frac { Final\quad Velocity\quad -\quad Initial\quad Velocity }{ Time } \n$

Therefore:

$Acceleration=\frac { 11.1\quad m/s\quad -\quad 0\quad m/s }{ 9\quad seconds } \n \n =\frac { 11.1\quad m/s }{ 9\quad seconds } \n \n =1.23\quad m/{ s }^( 2 )\quad (2\quad decimal\quad places)$

As the runner was travelling for 9 seconds, he covered a distance of 99.9 metres. 9 seconds x 9 seconds = 81 seconds squared, and the runner covers roughly 1.23 metres in distance every second squared.

Answer 2

Answer:

Explanation:

Acceleration=

Time

FinalVelocity−InitialVelocity

Therefore:

\begin{gathered}Acceleration=\frac { 11.1\quad m/s\quad -\quad 0\quad m/s }{ 9\quad seconds } \\ \\ =\frac { 11.1\quad m/s }{ 9\quad seconds } \\ \\ =1.23\quad m/{ s }^{ 2 }\quad (2\quad decimal\quad places)\end{gathered}

Acceleration=

9seconds

11.1m/s−0m/s

9seconds

11.1m/s

=1.23m/s

(2decimalplaces)

As the runner was travelling for 9 seconds, he covered a distance of 99.9 metres. 9 seconds x 9 seconds = 81 seconds squared, and the runner covers roughly 1.23 metres in distance every second squared.

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A 20-kg bicycle carrying a 50-kg girl is traveling at a speed of 8 m/s. What is the kinetic energy of the girl and bicycle?

Answers

$E= (mv^(2))/(2)= ((20+50)*8)/(2) = (560)/(2) =280 J$

A research paper isA. creative, unstructured, first-person writing.
B. casual, third-person, entertaining writing.
C. thoughtful, analytical, academic writing.
D. bullet-pointed, technical, factual writing.

Answers

A research paper is considered to be the work that is a culmination of hundreds of hours of work put into one technical writeup which serves as the groundwork for what was done in that particular research. For that reason, the asnwer to your question would be C - thoughtful, analytical and academic writing.

If you walk with a speed of 2.0m/s for 2.0h how far would you travel

Answers

Answer:

14,400 meters

Explanation:

yes

A 1.00-L bulb and a 1.50-L bulb, connected by a stopcock, are filled, respectively, with argon at 0.75 atm and helium at 1.20 atm at the same temperature. Calculate the total pressure and the partial pressures of each gas after the stopcock has been opened and the mole fraction of each gas. Assume ideal-gas behavior.

Answers

Answer:

Explanation:

If P₁(p) be the partial pressure of gas in first bulb then

P₁(p) (1 +1.5) = P₁V₁ = 1 X 0.75

P₁(p) = (1 / 2.5) x .75 = 0.3 atm

Similarly partial pressure of gas in second bulb

= ( 1.5 / 2.5) x 1.2 = .72 atm

Total pressure= .3 + .72 = 1.02 atms.

If n₁ and n₂ be their moles in the respective bulbs

P₁V₁ = n₁ R t

P₂ V₂ = n₂ R t

$(P_1V_1)/(P_2V_2) = (n_1)/(n_2)$

$(n_1)/(n_2+n_1 ) = (P_1V_1)/(P_1V_1+P_2V_2)$

mole fraction of argon = $(.75* 1)/(.75*1+1.2*1.5)$

= $(.75)/(2.55)$

= 15 / 51

Mole fraction of helium = 1 - 15 / 51 = 36 / 51

Answer:

The total pressure of the mixture is 1.02 atm.

Partial pressure of the argon : $p_(Ar)=0.30atm$

Partial pressure of the helium : $p_(He)=0.72atm$

Explanation:

Volume of argon in the bulb = $V_1$ = 1.00 L

Pressure of argon in the bulb = $P_1$ = 0.75 atm

Temperature of the both the gases = T

Moles of argon gases = $n_1$

$P_1V_1=n_1RT$ ..[1]

Volume of helium in the bulb = $V_2$ = 1.50 L

Pressure of helium in the bulb = $P_2$ = 1.20 atm

Moles of helium gases = $n_2$

$P_2V_2=n_2RT$ ..[2]

[1] ÷ [2]

$(P_1V_1)/(P_2V_2)=(n_1)/(n_2)$

$(n_1)/(n_2)=(0.75 atm* 1.00 L)/(1.20 atm* 1.50 L)$

$(n_1)/(n_2)=(5)/(12)$

$n_2=2.4* n_1$

After opening the stopcock, the gases are mixed.

The mole fraction of argon = $\chi_1=(n_1)/(n_1+n_2)$

$\chi_1=(n_1)/(n_1+2.4n_1)=0.2941$

The mole fraction of helium= $\chi_2=(n_2)/(n_1+n_2)$

$\chi_2=(2.4n_1)/(n_1+2.4n_1)=0.7059$

Volume of the mixture ,V= 1.00 L + 1.50 L =2.50 L

Total pressure in the mixture = P

Temperature is same = T

Total moles of gases in the mixtures = n

$PV=nRT$

$n=n_1+n_2$

$(PV)/(RT)=(P_1V_1)/(RT)+(P_1V_1)/(RT)$

$P* 2.50L=0.75 atm* 1.00 L+1.20 atm* 1.50 L$

$P* 2.50L=2.55 atm L$

$P=(2.55 atm L)/(2.50 L)=1.02 atm$

The total pressure of the mixture is 1.02 atm.

Partial pressure of the argon after mixing : $p_(Ar)$

$p_(Ar)=P* \chi_1=1.02* 0.2941=0.30 atm$

Partial pressure of the helium after mixing : $p_(He)$

$p_(He)=P* \chi_2=1.02* 0.7059=0.72 atm$

Make a island with all renewable energy soursws and how it works and about it but at year 9 level

Answers

Answer:

How are we expected to make an island

Iron has a mass of 7.87 g per cubic centimeter of volume, and the mass of an iron atom is 9.27 × 10-26 kg. If you simplify and treat each atom as a cube, (a) what is the average volume (in cubic meters) required for each iron atom and (b) what is the distance (in meters) between the centers of adjacent atoms?

Answers

known values; mass per / volume and mass of each atom

average volume= volume per atom.
density*mass per atom = volume per atom

1cm^3 / 7.87 gram * 9.27 *10^-26 kg /atom* 1000 gram / kg=
=1.178 * 10^-22 cm^3 per atom

Convert that to mass
1 cm^3 * (1 m / 100 cm)^3
average volume= 1.178 *10^-29 m^3 per atom

distance:

Volume of a cube is L^3

so L = (1.178*10^-29)^(1/3)

Half way through the cube is distance 1/2 L.
Second cube is 1/2 L
So distance between the center of 2 cubes = L

=2.28 *10^-10 m

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