A cylinder contains 3.5 L of oxygen at 350 K and 2.7 atm . The gas is heated, causing a piston in the cylinder to move outward. The heating causes the temperature to rise to 620 K and the volume of the cylinder to increase to 9.1 L.What is the gas pressure? P= _____atm

Answer:

K= -U/2

Explanation:

We know that K.E = 1/2mv²

And -GMm/r²= mv²/r

Thus K,E= 1/2(GMm/r)= 1/2(-P.E)

So

P.E = - GMm/r

So K= -U/2

Answer:

Explanation:

A closed system can exchange energy but not matter, with its surroundings. An isolated system cannot exchange any heat, work, or matter with the surroundings, while an open system can exchange energy and matter.

Hope this helped you!

Explanation:

The De-Broglie wavelength in terms of potential difference is given by:

[tex]\lambda=\dfrac{h}{\sqrt{2meV} }[/tex]

Where,

h is Planck's constant

m is mass of charged particle

V is potential difference

e is the amount of charge

It means that the De-Broglie wavelength is inversely proportional to the mass.

Since, the mass of the proton is more than the mass of the electron. So, the De- Broglie wavelength of the electron is larger than proton.

Answer:

Explanation:

Water pressure is the result of the weight of all the water above pushing down on the water below. As you go deeper into a body of water, there is more water above, and therefore a greater weight pushing down. This is the reason water pressure increases with depth.

Answer:

A. To find the mass flow rate.

We use= 220 x 0.355/ 60

= 1.3kg/s

B. Volume flowrate is = mass flowrate / density

But density is 1000kg/m³

= 1.3kg/s/ 1000kg/m³

= 0.0013m³/s

C. Flow speead at 1

= 0.0013m³/s / (2 x 10-2m)²

= 6.5m/s

D.flow speed at 2

0.0013m³/s / (8x 10-2m)²

=1.63m/s

E. Gauge pressure at point 1

= 152+ 1/1000 ( 1.63)²- 6.5² + 1000( 9.8) ( 0-1.35)

= 119kpa

Answer:

Carbon

Explanation:

We know that

Number of moles = mass/molecular mass

So

Hydrogen: given as H2 with 10g an atomic number of 1 so MW( 1x 2= 2)

Number of moles = Weight/MW

= 10/2

= 5

Carbon: atomic number 12 C and mass 100

Number of moles = Weight/MW

= 100/12

= 8.33

Lead: atomic num 207 and mW 207 pb

Number of moles = Weight/MW

= 50/207

= 0.241

Therefore Carbon has the most moles.

Answer:

The wavelength of the sound wave is 7.58 m

Explanation:

Given;

speed of wave in steel, v = 5000 m/s

frequency of the wave in steel, f = 660 Hz

The wavelength of a sound wave is given by;

λ = v / f

where;

v is the speed of sound wave in steel

f is the frequency of sound wave in steel

λ is the wavelength of the sound wave in steel

λ = 5000 / 660

λ = 7.58 m

Therefore, the wavelength of the sound wave is 7.58 m

Answer:

a) True. The Strong interaction is the strong Coulomb force

e) True. It acts between protons, neutrons and between a proton and a neutron

Explanation:

In this exercise you must answer if there are some statements about the nuclei, let's write some of their characteristics

* at the core there is an attractive force called Strong Interaction

* This interaction acts on protons and neutrons alike

* There is a Coulombian-type repulsive force that acts between protons.

Let's review the claims

a) True. The Strong interaction is the strong Coulomb force

b) False. It acts on the elements of the nucleus and here there are no electrons

c) False. It is much greater than gravity and generally described by an exponential

d) False. It acts between components of the nucleus and here there are no electrons

e) True. It acts between protons, neutrons and between a proton and a neutron

Answer:

0.97s

Explanation:

First of all solving the second equation of motion in the vertical direction we have

Vy= Vosinစ

= 5m x sin 30= 2.5m/s

So solving for t time in second equation of motion we will have

t= - Vy +or- √(Vy²- 4{g/2)- h)/ (2g/2)

Substituting 7m for h

We have

t = -2.5+or- √ 2.5²-4(4.9)-7/9.3

We have

t= 0.97s as the positive rational answer

Answer:

The drawing is attached below.

Explanation:

According to the drawing, we can see that the point "0" marked on the mirror, is the point that allows the formation of an angle between Vittorio's eyes and the place where his shirt logo is. In summary, the point on the mirror that needs to be cleaned, so that Vittorio can see only the logo of his shirt, is the point that represents equal vertical distances between Vittorio's eyes and the shirt's logo, since these distances present the same angle.

Answer:

Number 1: B  Number 2: D

Explanation:

Answer:

Hello! Your answer would be D) for one and C) for two.

Explanation:

Run off is when water runs of of things into lakes oceans etc.

So with number two it would be C because not even 3% of our water is fresh.

Answer:

Te wavelength is 3.66 x 10^-11 m

Explanation:

Question is

What is the de Broglie wavelength of an electron that strikes the back of the face of a TV screen at 1/15 the speed of light.

De Broglie's wavelength is gotten as

λ = h/mv

where

λ is the wavelength of the electron

h is the Planck's constant = 6.67 x 10^-34 J-s

m is the mass of an an electron = 9.109 x 10^-31 kg

v is the speed of the electron.

The speed of the electron is given as 1/15 of the speed of light

Speed of electron = 1/15 of 3 x 10^8 = 2.0 x 10^7 m/s

substituting values, we have

λ = (6.67 x 10^-34)/(9.109 x 10^-31)x(2.0 x 10^7) = 3.66 x 10^-11 m

Answer:

The  radius is  [tex]R = 0.22 5 \ m[/tex]

Explanation:

From the question we are told that

    The current is  [tex]I = 61 \ A[/tex]

     The  magnetic field is  [tex]B = 1.70 *10^{-4} \ T[/tex]

Generally the magnetic field produced by a current carrying conductor  is mathematically represented as

        [tex]B = \frac{\mu_o * I}{2 * R }[/tex]

=>     [tex]R = \frac{\mu_o * I }{ 2 * B }[/tex]

Here  [tex]\mu_o[/tex] is the permeability of free space with value  [tex]\mu_o = 4\pi * 10^{-7} N/A^2[/tex]

=>    [tex]R = \frac{ 4\pi * 10^{-7} * 61 }{ 2 * 1.70 *10^{-4} }[/tex]

=>  [tex]R = 0.22 5 \ m[/tex]

Answer:

The dose is 6 mSV

Explanation:

The absorbed dose (in gray - Gy) is the amount of energy that ionizing radiation deposits per unit mass of tissue. That is,

Absorbed dose = Energy deposited / Mass

while Dose equivalent (DE) (in Seivert -Sv) is given by

DE = Absorbed dose × RBE (Relative biological effectiveness)

First, we will determine the Absorbed dose

From the question, Energy deposited = 30mJ and Mass = 50kg

From,

Absorbed dose = Energy deposited / Mass

Absorbed dose = 30mJ/50kg

Absorbed dose = 0.6 mGy

Now, for the Dose equivalent (DE)

DE = Absorbed dose × RBE

From the question, RBE = 10

Hence,

DE = 0.6mGy × 10

DE = 6 mSv

The dose will be 6 mSv. The absorbed dose (in gray - Gy) is the amount of energy that ionizing radiation deposits per unit mass of tissue.

A unit is a measurable quantity of a drug, vitamin, or pathogen provided in a single dose. A medication's dosage form is a blend of active and inactive ingredients used to give it.

The given devotion is;

[tex]D_a=[/tex]Absorbed dose

[tex]\rm E_D[/tex] = energy deposited

[tex]\rm D_E[/tex] is the dose equivalent

RBE= Relative biological effectiveness

The absorbed dose is found as;

[tex]\rm D_a = \frac{E_d}{m}\\\\ D_a = \frac{30 \ mJ}{50}\\\\ \rm D_a = 0.6 \ mGy[/tex]

The dose equivalent is found as;

[tex]\rm D_E=D_A \times RBE \\\\ D_E=0.6 \times 10 \\\\ \rm D_E=6 mSV[/tex]

Hence the dose will be 6 mSv.

To learn more about the dose refer to the link;

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Complete Question

You are performing a double slit experiment very similar to the one from DL by shining a laser on two nattow slits spaced [tex]7.5 * 10^{-3}[/tex] meters apart. However, by placing a piece of crystal in one of the slits, you are able to make it so that the rays of light that travel through the two slits are Ï out of phase with each other (that is to say, Ao,- ). If you observe that on a screen placed 4 meters from the two slits that the distance between the bright spot closest to center of the pattern is 1.5 cm, what is the wavelength of the laser?

Answer:

The  wavelength is  [tex]\lambda = 56250 nm[/tex]

Explanation:

From the question we are told that

   The  distance of slit separation is  [tex]d = 7.5 *10^{-3} \ m[/tex]

   The  distance of the screen is  [tex]D = 4 \ m[/tex]

    The  distance between the bright spot closest to the center of the interference  is  [tex]k = 1.5 \ cm = 0.015 \ m[/tex]

Generally the width of the central  maximum fringe produced is mathematically represented as

        [tex]y = 2 * k = \frac{ D * \lambda}{d}[/tex]

  =>    [tex]2 * 0.015 = \frac{ \lambda * 4}{ 7.5 *10^{-3}}[/tex]

   =>   [tex]\lambda = 56250 *10^{-9} \ m[/tex]

=>      [tex]\lambda = 56250 nm[/tex]

Answer:

The spaceship will travel in a straight line at constant speed.

Explanation:

According to the Newton's First Law, the spaceship will have an uniform motion in a straight line, that is, the spaceship will travel in a straight line at constant speed.

The spaceship will travel in a straight line at constant speed.

Hence, the spaceship will travel in a straight line at constant speed.

Learn more:

https://brainly.com/question/11253532

Answer:

1.15*10^-7 N/m²

Explanation:

Radiation pressure is the pressure exerted on any surface, as a result of the exchange of momentum between the object and its electromagnetic field.

The formula to calculate radiation pressure on a perfect absorber is

P = s/c, where

P = radiation pressure

s = intensity of light

c = speed of light

Now, on substituting the values and plugging it into the equation, we have

P = 34.5 / 3*10^8

P = 1.15*10^-7 N/m²

therefore, radiation pressure is found to be 1.15*10^-7 N/m²

Explanation:

Assuming the substances are fluids that do not mix, the lighter substance (ρ = 1.3 g/cm³) will float on top of the heavier substance (ρ = 2.0 g/cm³).  This is due to Archimedes' Principle, which explains buoyancy.

Answer:

[tex]2.32\times 10^{-11}[/tex]

Explanation:

First number is [tex]4.48\times 10^{-8}[/tex]

Second number is [tex]5.2\times 10^{-4}[/tex]

We need to multiply the two numbers.

[tex]4.48\times 10^{-8}\times 5.2\times 10^{-4}=(4.48\times 5.2)\times 10^{(-8-4)}\\\\=23.296\times 10^{-12}[/tex]

In scientific notation : [tex]2.32\times 10^{-11}[/tex]

Hence, this is the required solution.

Answer:

The glider's position at t=0.300s is 8.1 cm

Explanation:

Given;

maximum speed of the glider, [tex]v_{max}[/tex] = 30.0 cm/s = 0.3 m/s

period of the oscillation, T = 2.4 s

Maximum speed of oscillation is given by;

[tex]v_{max}[/tex]  = ωA

Where;

A is the amplitude of the oscillation

ω is the angular speed

[tex]\omega = \frac{2\pi}{T} \\\\\omega =\frac{2\pi}{2.4}\\\\ \omega = 0.833 \pi[/tex]

The amplitude of the oscillation is given by;

[tex]A = \frac{v_{max}}{\omega} \\\\ A = \frac{0.3}{0.833\pi}\\\\ A = 0.1146 \ m[/tex]

The position of the particle is given by;

x(t) = A cosωt

x(0.3) = (0.1146)cos(0.833π x 0.3)

x(0.3) = (0.1146)cos(0.833π x 0.3)

x(0.3) = (0.1146)cos(45)

x(0.3) = 0.081 m

x(0.3) = 8.1 cm

Therefore, the glider's position at t=0.300s is 8.1 cm

Answer:

Explanation:

a )

If it is totally absorbed pressure is calculated as follows .

Pressure = I / c where I is intensity of light falling .

= 1000 / 3 x 10⁸

= 3.33 x 10⁻⁶ N / m²

b ) weight of tritium atom

=  3 x 1.67 x 10⁻²⁷ kg

acceleration = force / mass

=    3.33x 10⁻⁶ / 3 x 1.67 x 10⁻²⁷

= .6646 x 10²¹ m /s²

= 66.46 x 10¹⁹ m / s²

Answer:

N 100N E

Explanation:

Check image uploaded for the solution

Answer:

Eje x

           fr- F = m a

eje y    

           N-W =0

Explanation:

Para este ejercicio, debemos usar la segunda ley de Newton, donde se necesita fija un sistema de referencia el mas usado es un sistema horizontal y vertical para los ejes x e y  

en el adjunto puede ver el diagrama de cuerpo libre correcto,  

las fuerza son

Eje x

           fr- F = m a

eje y    

           N-W =0

la ecuacion para la fuerza de roce es

          fr = my N

Answer:

The interpretation of the subject in question is characterized in the discussion section below.

Explanation:

Answer: i think it is An object has a mass of 120 kg on the Moon. The force of gravity acting on the object on the Moon is 196 N. Sol'n: force = mass * gravity; gravity on the moon is 1/6 that on the Earth = 9.807*(1/6)=1.6345; f = m*g; f = 120*1.6345 =196.14.

Explanation:

Answer:

Hey there!

W=mg, where m is the mass and g is the acceleration of gravity.

The acceleration of g on the moon is about 1.622 m/s^2, so plugging that in as a value gives us W, the force is equal to approximately 197 Newtons.

Let me know if this helps :)

Answer:

2.72 x 10^-43 m

Explanation:

mass of the telescope = 7500 kg

speed of the telescope = 3.25 x 10^5 m/s

de Broglie's  wavelength of the telescope is given as

λ = h/mv

where

λ is the wavelength of the telescope

h is the plank's constant = 6.63 × 10-34 m^2 kg/s

m is the mass of the telescope = 7500 kg

v is speed of the telescope = 3.25 x 10^5 m/s

substituting value, we have

λ = (6.63 × 10-34)/(7500 x 3.25 x 10^5)

λ = 2.72 x 10^-43 m

Answer:

The correct option is B: It consists of perpendicularly oscillating electric and magnetic fields, and the direction of propagation is perpendicular to both.

Explanation:

Electromagnetic radiation travels at the speed of light (c = 3x10⁸ m/s) only in a vacuum. In another propagation medium, the speed of electromagnetic radiation is less than c.    

The oscillations of the waves of the electric and magnetic fields are perpendicular to each other, and the direction of propagation is also perpendicular to the two fields.        

From all of the above, the correct option is B: It consists of perpendicularly oscillating electric and magnetic fields, and the direction of propagation is perpendicular to both.        

I hope it helps you!                              

The true statement regarding electromagnetic radiation should be option B where it comprises of perpendicularly oscillating electric and magnetic fields.

It should be traveled when the speed of light i.e. (c = 3x10⁸ m/s) should be a vacuum. For the propagation medium, the speed with respect to the electromagnetic radiation should be lower than c. Also, the oscillations of  the electric waves and the magnetic field should be perpendicular also the direction should be perpendicular

Hence, the option b is correct.

Learn more about radiation here: https://brainly.com/question/24301101

Answer:

262.4 m/s

Explanation:

The complete question is

If we ignore air resistance, a falling body will fall 16t^2 feet in t seconds. What is the average velocity between t=8 and t=8.4? Round your answer to two decimal places if necessary.

The distance fallen s = 16t^2

The velocity v = [tex]\frac{ds}{dt}[/tex] = 32t

If we substitute the values of t into the velocity v, we'll have

at t = 8 s,     V1 = 32 x 8 = 256 m/s

at t = 8.4 s,  V2 = 32 x 8.4 = 268.8 m/s

Average velocity = (V2 - V1)/2 = (268.8 + 256)/2 = 262.4 m/s