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Shelly tells a friend that her computer needs to be fixed because it has been producing a lot of heat and is smoking. Where
is the error in her statement?
• Heat cannot be described as having been produced.
Thermal energy cannot be produced by electronics.
Her computer should be producing a lot of heat and does not need to be fixed.
Her computer is producing thermal energy, not heat.
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The lion covers a distance of [tex]\left(18.0\frac{\rm m}{\rm s}\right)t[/tex] after [tex]t[/tex] seconds, so it reaches the 1.760 km mark at time

[tex]\left(18.0\dfrac{\rm m}{\rm s}\right)t=1760\,\mathrm m\implies t\approx97.8\,\mathrm s[/tex]

The pig travels a distance of [tex]\left(2.70\frac{\rm m}{\rm s}\right)t[/tex], so that it has moved

[tex]\left(2.70\dfrac{\rm m}{\rm s}\right)(97.8\,\mathrm s)=264\,\mathrm m[/tex]

in the time it takes for the lion to move 1.760 km.

(a) The lion has 0.44 km left in the race, which would take it

[tex]\left(18.0\dfrac{\rm m}{\rm s}\right)t=440\,\mathrm m\implies t\approx24.4\,\mathrm s[/tex]

to finish.

In order for the lion and pig to cross the finish line at the same time, the lion needs to resume running once the pig has 24.4 s remaining to the finish line; this happens when it is

[tex]\left(2.70\dfrac{\rm m}{\rm s}\right)(24.4\,\mathrm s)\approx\boxed{65.9\,\mathrm m}[/tex]

away from the end.

(b) The lion is stationary for as long as it takes the pig to cover the distance between [65.9 m away from the finish line] and [264 m from the starting line], or (2.20 km - 65.9 m) - 264 m = 1.87 km, which takes it

[tex]\left(2.70\dfrac{\rm m}{\rm s}\right)t=1870\,\mathrm m\implies t=\boxed{935\,\mathrm s}[/tex]

(a) The distance of the pig from the finish line is 428.3 m

(b) The lion was stationary for 4.32 s

The given parameters;

When the pig meets the lion, both have covered a total distance of 1,760 m

The remaining distance to be covered = 2,200 m - 1,760 m = 440 m

Apply relative velocity concept; as the pig is moving, the lion is closing the gap between them until the finish line.

[tex](V_l - V_p)t = 440\\\\(18- 2.7)t = 440\\15.3 t = 440\\\\t = \frac{440}{15.3} \\\\t = 28.76 \ s[/tex]

If the lion had maintained a constant motion without stopping, the time it would have finished the remaining race is calculated as;

[tex]t_l = \frac{440}{18} = 24.44 \ s[/tex]

(b) This show that the lion was stationary for (28.76 - 24.44 )s = 4.32 s

(a) The distance traveled by the pig during the 4.32 s that the lion was stationary is calculated as;

d = 4.32 x 2.7 = 11.7 m

Thus, the distance of the pig from the finish line is (440 - 11.7)m = 428.3 m.

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Answer:

to create the particle the speed must be greater than 2.25 10⁸ m / s

Explanation:

In this exercise we must use the relation of the index of refraction with the speed of light in a vacuum and a material medium

           n = c / v

where c is the speed of light in the vacuum, v the speed of light in the material medium and n the ratio of rafraccio

in this case they give us that the medium matter water them that has a refractive index of

              n = 1,333

we clear

          v = c / n

let's calculate

           v = 3 10⁸ / 1,333

           v = 2.25 10⁸ m / s

to create the particle the speed must be greater than 2.25 10⁸ m / s

Answer:

Explanation:

Let L be the length of the wire.

velocity of pulse wave v = L / 24.7 x 10⁻³ = 40.48 L  m /s

mass per unit length of the wire m = 14.5 x 10⁻⁶ x 10⁻³ / 2 x 10⁻² kg / m

m = 7.25 x 10⁻⁷ kg / m

Tension in the wire = Mg  , M is mass hanged from lower end.

= .4 x 9.8

= 3.92 N

expression for velocity of wave in the wire

[tex]v = \sqrt{\frac{T}{m} }[/tex]    , T is tension in the wire , m is mass per unit length of wire .

40.48 L = [tex]\sqrt{\frac{3.92}{7.25\times10^{-7}} }[/tex]

1638.63 L² = 3.92 / (7.25 x 10⁻⁷)

L² = 3.92 x 10⁷ / (7.25 x 1638.63 )

L² = 3299.64

L = 57.44 m /s

Answer:

[tex]L_{B}[/tex] / [tex]L_{A}[/tex] = [tex]\frac{5mvl}{mvl}[/tex]= 5

Explanation:

Find the given attachment

The definitions of angular momentum allow to find the result for the relationship between the two angular moments is:

           [tex]\frac{L_B}{L_A} = 5[/tex]  

The angular momentum is the vector product of momentum and  vector position.

       L = r x p

Where the bold letters indicate vectors, r is the position vector and p the moment. In the body that is in a rotation can be written as a function of the moment of inertia and the angular velocity.

      L = I w

Linear and angular variables are related.

       v = w L

We substitute

         L = I v L

The moment of inertia of a disk with respect to its center is:

        I = ½ m r²

Let's write the angular momentum for each disk.

Disc A

          [tex]L_A[/tex] = ½ [tex]m_A r^2 v_A L_A[/tex]  

Disc B

           [tex]L_B[/tex] = ½ [tex]m_B r^2 v_B L_B[/tex]  

They indicate that the mass of disk A is m and that of disk b is 20m, the length of the string is l for disk A and l / 4 for disk B.

We substitute

           [tex]L_A[/tex]  = ½ m r² v l

           [tex]L_B[/tex]  = ½ (20m) r² v ( [tex]\frac{l}{4}[/tex] )

The relationship between the angular moments is

          [tex]\frac{L_B}{L_A} = \frac{20m \frac{l}{4} }{m l}\\ \frac{L_B}{L_A} = 5[/tex]  

Consequently using the definitions of angular momentum we can find the result for the relationship between the two angular moments is:

           [tex]\frac{L_B}{L_A} = 5[/tex]

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Answer:

Explanation:

To find the distance covered by the car after it applied brakes, we use 3rd equation of motion.

2as = Vf² - Vi²

s = (Vf² - Vi²)/2a

1.

We have:

Vi = Initial Velocity = 5 m/s

Vf = Final Velocity = 0 m/s    (Since, car finally stops)

a = deceleration = - 2 m/s²

s = distance covered by the car = ?

Therefore,

s = [(0 m/s)² - (5 m/s)²]/2(- 2 m/s²)

s = 6.25 m

2.

We have:

Vi = Initial Velocity = 10 m/s

Vf = Final Velocity = 0 m/s    (Since, car finally stops)

a = deceleration = - 2 m/s²

s = distance covered by the car = ?

Therefore,

s = [(0 m/s)² - (10 m/s)²]/2(- 2 m/s²)

s = 25 m

Hence, the distance traveled by the car is affected by the initial speed in accordance with a direct relationship.

Answer:

B. fjords

explanation :

Fjords were created by glaciers. In the Earth's last ice age, glaciers covered just about everything. Glaciers move very slowly over time, and can greatly alter the landscape once they have moved through an area. This process is called glaciation.The fjords are one of the glaciers that existed in the past. They are one of the many glacial relief forms that can give us a insight into the size and power of the glaciers.

Answer:

B. fjords

I hope this helps

Answer:

a. A list of the names of each student present today. (microstate)

b. The number of students in attendance. (macrostate)

Explanation:

You can fins the answer to this question by comparing the situation of the problem with a system of molecules with discrete energy.

Without importance of which molecules have a specific energy, but rather, what is the total amount of energy, you can get for different configurations of energy the same amount of the total energy. If different configurations of the energies of the molecules give you the same total energy of the system, you say that the macrostate is the same. In the case of the classroom, it does not matter how are distributed the students in the class, the total number of students is always the same. The macrostate is the same for what ever organization of the students in the class.

If you would interested in the energy of each molecules, you will obtain different configurations. In the case of the classroom. The names of the student will define a microstate because in this case there are many configurations.

a. A list of the names of each student present today. (microstate)

b. The number of students in attendance. (macrostate)

Answer:

a

The force experience by the two spheres is [tex]F_1 = 1.44*10^4 N[/tex]

This force is attractive cause the charge are unlike charges

b

The force experienced by the two spheres is  [tex]F_2 = 3.24*10^{3} \ N[/tex]

The force is repulsive because the two charges are like charges

Explanation:

From the question we are told that

   The charge on the first sphere is  [tex]q_1 = -20.0 \mu C = 20 *10^{-6} C[/tex]

    The charge on the second sphere is  [tex]q_2 = 50 \mu C = 50*10^{-6} C[/tex]

      The distance of separation is [tex]d = 2.50 \ cm = \frac{2.50}{100} = 0.025 \ m[/tex]

The electrostatic force experienced by the two spheres is mathematically represented as

                  [tex]F_1 = \frac{k q_1 q_2}{d^2}[/tex]

Now k is the coulomb’s constant with a value of  [tex]k = 9*10^9 N \cdot m^2 /C^2[/tex]

   So

              [tex]F_1 = \frac{9*10^9 * 20 *10^{-6} * 50*10^{-6}}{0.025}[/tex]

              [tex]F_1 = 1.44*10^4 N[/tex]

When the sphere are brought together the charge on each sphere would be the average of the total charge and this can be mathematically evaluated as

            [tex]q = \frac{q_1 + q_2 }{2}[/tex]

            [tex]q = \frac{(-20 + 50)*10^{-6} }{2}[/tex]

            [tex]q = 15 \mu C[/tex]

So when they are seperated the electrostatic force experienced is  

         [tex]F_2 = \frac{kq^2}{d^2}[/tex]

         [tex]F_2 = \frac{ 9*10^9 * (15 *10^{-6})}{0.025}[/tex]

         [tex]F_2 = 3.24*10^{3} \ N[/tex]

Answer:

B. the number of field lines on the source charge

Explanation:

As we know that electric flux is defined as the number of electric field lines passing through a given area.

So here  electric flux due to a point charge "q" is given by

so here we know that flux depends on the magnitude of charge and hence we can say that number of filed lines originating from a point charge will depends on the magnitude of the charge.

The factor indicates the amount of charge on the source charge is the number of field lines on the source charge.

The electric flux is defined as the number of electric field lines passing through a given area.

The electric flux due to a point charge q is given by the number of filed lines through particular closed area.

We know that flux depends on the magnitude of charge and number of field lines starting from a point charge will depends on the magnitude of the charge.

Thus, the correct option is B.

Learn more about electric flux.

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Answer:

These two forces are called action and reaction forces

Explanation:

Answer:

Inner planets rotate slowly and so they take more time to complete a rotation. Whereas, outer planets rotate faster and so they take less time to complete a rotation.

Explanation:

The inner planets are the ones that are much closer to the sun and as such they have much smaller orbits around them and take much less time to circle around it. These planets are much smaller, which enables them rotate slowly, so they take more time to complete a rotation..

Whereas, the outer planets differ from the inner planets in that they are much further from the sun and so take much more time for them to be able to make a single circle around the su and also, because they are much bigger, it takes them much more time to spin around their own axis, thus Outer planets rotate faster, so they take less time to complete a rotation

Answer: Carbon dioxide (CO2), Carbon monoxide (CO), Methane (CH4)

Explanation:

the gravity force obeys the inverse square law because according to the newtons law of gravitaion the force of the gravitation is directly proportional to the product of masses ... In this way it depends upon the masses directly.We donot notice any gravitational force because we have very small masses as compared to the plantery universe and the solar system ... due to there greater masses they exert a large force and thus by increasing the distance the force of attraction varies inversely to the force of gravitation...thus gravitional force is a variable quantity ..............varies inversely to the square of distance between the to bodies...

          F ∝1/r2

Answer:

They are used in icy conditions.

Explanation:

They can also go over grassy plains and mucky swamps.

Answer:

  C.  98 J

Explanation:

The appropriate formula is ...

  PE = mgh . . . . . m is mass; below, m is meters

  PE = (5 kg)(9.8 m/s^2)(2 m) = 98 kg·m^2/s^2

  PE = 98 J

Answer:

Explanation:

For a person suffering from nearsightedness, far point is 3.5 m . That means , an object beyond 3.5 m will not be clearly visible by the person . Ray of light coming from 3.5 m will be focussed on retina . For an object to be visible from infinity , ray of light coming from infinity should appear to be coming from 3.5 m . In other words , the object placed at infinity should form a virtual  image at 3.5 m . This can be done by concave lens.

u = ∝ ;  v  = 3.5

Using lens formula

[tex]\frac{1}{v} -\frac{1}{u} = \frac{1}{f}[/tex]

[tex]\frac{1}{-3.5} -0 = \frac{1}{f}[/tex]

f = - 3.5 m .

Answer:

Explanation:

tensile strength is stress that is needed to break the wire made of the material .

Here force required to break the sheet of material = 233 N

cross sectional area of the foil = breadth x thickness

= 5 x 10⁻² x 15 x 10⁻⁶ m²

= 75 x 10⁻⁸ m²

breaking stress = force / cross sectional area

= 233 / 75 x 10⁻⁸

= 3.1 x 10⁸ Pa .

Tensile strength = 3.1 x 10⁸ Pa .

Answer:500 W

Explanation:

Given

When length is L power dissipated is [tex]100\ W[/tex]

Potential difference applied is [tex]200\ V[/tex]

Resistance of wire is directly proportional to length of wire

Suppose initially Resistance is R

When L changes to [tex]2L[/tex]

Resistance changes to [tex]2R[/tex]

Initial Power dissipated is [tex]P_o=\frac{V^2}{R}[/tex]

For 2 R resistance and same voltage, Power dissipated is

[tex]P_1=\frac{V^2}{(2R)}[/tex]

So [tex]P_1=\frac{1}{2}\times \frac{V^2}{R}[/tex]

[tex]P_1=\frac{P_o}{2}[/tex]

So [tex]P_1=\frac{1000}{2}[/tex]

[tex]P_1=500\ W[/tex]

Answer:

A.)

Explanation:

The answer is food chain A, as plants produce their own food using photosynthesis, therefore making them producers.  

A grasshopper then eats this grass, making it a consumer as it is obtaining its energy from the producer.  It is then eaten by a fish and a human.  This chain accurately describe the flow of energy in an ecosystem, as it goes, producer, consumer, consumer, consumer

Hope this helps a little

Answer:

sorry

Explanation:

patulong

Answer:

The value of g is  [tex]g =76.2 m/s^2[/tex]

Explanation:

From the question we are told that

     The mass of the weight is [tex]m = 1.30 kg[/tex]

      The spring  constant  [tex]k = 1.73 g/m = 1.73 *10^{-3} \ kg/m[/tex]

       The second harmonic frequency is [tex]f = 100 \ Hz[/tex]

       The number of oscillation is [tex]N = 200[/tex]

        The time taken is  [tex]t = 315 \ s[/tex]

Generally the frequency is  mathematically represented as

           [tex]f = \frac{v}{\lambda}[/tex]

At second harmonic frequency the length of the string vibrating is equal to  the wavelength of the wave generated

         [tex]l = \lambda[/tex]

Noe from the question the vibrating string is just half of the length of the main string so

Let assume the length of the main string is  [tex]L[/tex]

So      [tex]l = \frac{L}{2}[/tex]

The velocity of the vibrating string is mathematically represented as

             [tex]v = \sqrt{\frac{T}{\mu} }[/tex]

Where T is the tension on the string which can be mathematically represented as

             [tex]T = mg[/tex]

So  

           [tex]v = \sqrt{\frac{mg}{k} }[/tex]

Then

          [tex]f = \frac{v}{\frac{L}{2} }[/tex]

=>       [tex]v = \frac{fL }{2}[/tex]

=>      [tex]\sqrt{\frac{mg}{k} } = \frac{fL}{2}[/tex]

=>        [tex]g = \frac{f^2 L^2 \mu}{4m}[/tex]

substituting values

             [tex]g = \frac{(100) * (1.73 *10^{-3} )}{(4 * 1.30)} L^2[/tex]

              [tex]g = 3.326 m^{-1} s^{-2} L^2[/tex]

Generally the period of oscillation is mathematically represented as

       [tex]T_p = 2 \pi \sqrt{\frac{L}{g} }[/tex]

=>   [tex]L = \frac{T^2 g}{4 \pi ^2}[/tex]

   The period can be mathematically evaluated as

                [tex]T_p = \frac{t}{N}[/tex]

 substituting values

             [tex]T_p = \frac{315}{200}[/tex]

             [tex]T_p = 1.575 \ s[/tex]

Therefore

          [tex]L = \frac{1.575^2 * g }{4 \pi ^2}[/tex]

           [tex]L = 0.0628 ^2 g[/tex]

so

      [tex]g = 3.326 m^{-1} s^{-2} L^2[/tex]

substituting for L

        [tex]g = 3.326 ((0.0628) g)^2[/tex]

=>    [tex]g = \frac{1}{(3.326)* (0.0628)^2}[/tex]

       [tex]g =76.2 m/s^2[/tex]

Answer:

630.93 kN of force.

Explanation:

Pressure inside the tank is 150 kPa

The acceleration due to gravity on Mars g is 3.71 m/s^2.

The depth of water h is 13.6 m.

Pressure due to air outside tank is 93 kPa

The density of water p is 1000 kg/m^3

Pressure of the water on the tank bottom will be equal to pgh

Pressure of water = pgh

= 1000 x 3.71 x 13.6 = 50456 Pa

= 50.456 kPa.

Total pressure at the bottom of the tank will be pressure within tank and pressure due to water and pressure outside tank.

Pt = (150 + 50.456 + 93) = 293.456 kPa

Force at the bottom of the tank will be pressure times area of tank bottom.

F = Pt x A

F = 293.456 x 2.15 m^2 = 630.93 kN

Answer:

Answer is C                                

Explanation:

I just did it E2020

A free body diagram with three force vectors, the first pointing south labeled F Subscript g Baseline, the second pointing northeast labeled F Subscript T Baseline and the third pointing northwest labeled F Subscript T. Thus option C is correct.

Free body diagram is defined as a drawing of an interesting object with all of its surroundings removed and the forces at work on the subject's body clearly depicted.

It is also defined as a diagram that reduces the loads and moments acting on a component or system of components.

Free body diagrams are streamlined depictions of an object and the force vectors operating on it in a problem. Since the diagram will depict this body without its surroundings, it is "free" of its environment.

Thus, a free body diagram with three force vectors, the first pointing south labeled F Subscript g Baseline, the second pointing northeast labeled F Subscript T Baseline and the third pointing northwest labeled F Subscript T. Thus option C is correct.

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Explanation:

After every 3 to 4 months

Answer:

Explanation:

The apparent magnitude of a star is related to the distance modulus as follows

[tex]m_{\lambda}= M_{\lambda}+5log_{10}d-5+A_{\lambda}[/tex]

[tex]m_{\lambda}= \text {absolute visual magnitude}[/tex]

d = distance in parsec

[tex]A_{\lambda}=\text {interstellar extinction}[/tex]

Substitute

absolute visual magnitude = -1.1

distance =700pc

interstellar extinction = 0

to determine the apparent visual magnitude of the star lying in front of nebula

[tex]m_{\lambda}= M_{\lambda}+5log_{10}d-5+A_{\lambda}[/tex]

[tex]=-1.1+5\log_{10}(700)-5+0\\\\=8.12[/tex]

Thus, the apparent visual magnitude of the star lying in front of nebula is 8.12

b) Substitute

absolute visual magnitude = -1.1

distance =700pc

interstellar extinction = 1.1

to determine the apparent visual magnitude of the star lying behind nebula

[tex]m_{\lambda}= M_{\lambda}+5log_{10}d-5+A_{\lambda}[/tex]

[tex]=-1.1+5\log_{10}(700)-5+1-1\\\\=9.22[/tex]

the apparent visual magnitude of the star lying behind nebula is 9.22

c)

without taking extinction i.e 0, the distance of the star lying just behind nebula is calculated as follows

[tex]m_{\lambda}= M_{\lambda}+5log_{10}d-5[/tex]

[tex]d=10^{(m_\lambda-M_{\lambda_5)/5}[/tex]

[tex]d=10^{(9.22+1.1+5)/5}\\\\=158.79pc[/tex]

Thus, without taking extinction , the distance of the star lying just behind nebula is 158.79pc

Compare the distance of nebula measured from earth with consideration of extinction to the distance of nebula without consideration of extinction

[tex]\frac{d_e}{d} =\frac{700pc}{1158.8pc}[/tex]

= 60.4%

thus, the percentage error in determining the distance if the interstellar extinction neglected is 60.4%

Answer:

Explanation:

Message will travel through the fibre at the speed of 3 x 10⁸ m /s which is also the speed of light .

a ) Time for a message to travel from US to France by using glass fibre  link

time  = distance / speed

= 6000 x 1000 / 3 x 10⁸

= .02 s .

b )

22000 miles = 1.6 x 22000

= 35200 km

Time for a message to travel from US to France by using a satellite link

time = distance / velocity

 distance = 2 x √ ( 35200² + 3000² )

=  2 x 35327 km

= .7 x 10⁸ m .

time = .7 x 10⁸ / 3 x 10⁸

= .233 s

c )

Difference of time = .233 - .02

= .213 which is more than 1/6 s for which effect of hearing stays in the brain , which is called persistence of vision .  So they will be heard as different sounds.

Answer: the expression of the mechanical energy for under damped system is;

x(t)=Ae−γ/2tcos⁡(ωdt+ϕ), where ωd=ω02−γ2/4

γ = damping rate, and

ω0 = the angular frequency of the oscillator without damping.

Explanation:

The physical situation in mechanical energy defined through out the world has three possible results depending on the value of a (which is a constant value), which depends on the value of what is under our radical. This expression can either be positive, negative, or equal to zero which will result in overdamping, underdamping, and critical damping, as the case may be.

γ2 >4ω²0 This is the Over Damped case. Here, the system returns to equilibrium by exponentially decaying towards zero, and the system will not pass that equilibrium position more than once.

γ² < 4ω²0 this is the Under Damped case. Here, the system moves back and forth as it slowly returns to equilibrium and the amplitude of the system decreases over time.

Finally, γ² = 4ω²0

This is the Critically Damped case. Here, the system returns to equilibrium very fast without moving back and forth and without passing the equilibrium position at all.

Answer:

the speed of 0.10 sphere when it is moved to 0.20 kg  to the left is :   [tex]3.3337*10^{-5} \ m/s[/tex]

Explanation:

Using the expression of the Change in  Gravitational Potential Energy:

[tex]U= -(\frac{ Gm_1m_2 }{r_2} - \frac{ Gm_1m_2 }{r_1}) \\ \\ U=Gm_1m_2 (\frac{ 1 }{r_2} - \frac{ 1 }{r_1})[/tex]

So when the sphere exerts just 10 kg mass; the change in the gravitational potential energy is :

[tex]U_1=Gm_1m_2 (\frac{ 1 }{r_2} - \frac{ 1 }{r_1})[/tex]

[tex]U_1=6.67*10^{-11}*0.1 \ kg*10 \ kg(\frac{ 1 }{0.6 \ m} - \frac{ 1 }{0.8 \ m})[/tex]

[tex]U_1 = 2.778*10^{-11} J[/tex]

the change in the gravitational potential energy  when the sphere exerts just 5 kg mass is ;

[tex]U_2=Gm_1m_2 (\frac{ 1 }{r_2} - \frac{ 1 }{r_1})[/tex]

[tex]U_2=6.67*10^{-11}*0.1 \ kg*5 \ kg(\frac{ 1 }{0.4 \ m} - \frac{ 1 }{0.2 \ m})[/tex]

[tex]U_2 = -8.335*10^{-11} J[/tex]

The net total change is:

[tex]U_{total } = U_1 +U_2[/tex]

[tex]U_{total} = 2.778*10^{-11} + (-8.335*10^{-11})[/tex]

[tex]U_{total} = -5.557*10^{-11}[/tex]

We all know that for there to be a balance ;loss of gravitational potential energy must be equal to the gain in kinetic energy .

SO;

K.E =  [tex]5.557*10^{-11}[/tex]

[tex]\frac{1}{2}mv^2 = 5.557*10^{-11}[/tex]

[tex]v^2 = \frac{2*5.557*10^{-11} \ J}{m_1}[/tex]

[tex]v=\sqrt{ \frac{2*5.557*10^{-11} \ J}{0. 1 \kg}[/tex]

v = [tex]3.3337*10^{-5} \ m/s[/tex]

Thus, the speed of 0.10 sphere when it is moved to 0.20 kg  to the left is :   [tex]3.3337*10^{-5} \ m/s[/tex]

The speed of 0.10 sphere when it is moved to 0.20 kg  to the left is :3.3337 *10^-5 m/s

The speed of any object is defined as the movement of any object with respect to the time.

By using the expression of the Change in  Gravitational Potential Energy:

[tex]U=-Gm_1m_2(\dfrac{1}{r_2}-\dfrac{1}{r_1})[/tex][tex]U_2=-Gm_1m_2(\dfrac{1}{r_2}-\dfrac{1}{r_1})[/tex]

So when the sphere exerts just 10 kg mass; the change in the gravitational potential energy is :

[tex]U_1=-Gm_1m_2(\dfrac{1}{r_2}-\dfrac{1}{r_1})[/tex]

[tex]U_1=- 6.67\times 10^{-11}\times 0.1\times 10(\dfrac{1}{0.6}-\dfrac{1}{0.8})[/tex]

[tex]U_1=2.778\times 10^{-11][/tex]

The change in the gravitational potential energy  when the sphere exerts just 5 kg mass is ;

[tex]U_2=-Gm_1m_2(\dfrac{1}{r_2}-\dfrac{1}{r_1})[/tex]

[tex]U_2=- 6.67\times 10^{-11}\times 0.1\times 5(\dfrac{1}{0.4}-\dfrac{1}{0.2})[/tex]

[tex]U_2=-8.335\times 10^{-11}\ J[/tex]

The net total change is:

[tex]U_{total}=U_1+U_2[/tex]

[tex]U_{total}=2.778\times 10^{-11}+(-8.335\times 10^{-11})[/tex]

[tex]U_{tot\leq al}=-5.557\times 10^{-11}[/tex]

We all know that for there to be a balance ;loss of gravitational potential energy must be equal to the gain in kinetic energy .

SO;

[tex]\rm KE=5.557\times 10^{-11}[/tex]

[tex]\dfrac{1}{2}mv^2=5.557\times 10^{-11}[/tex]

[tex]v^2=\dfrac{2\times 5.557\times 10^{-11}}{m}[/tex]

[tex]v=\sqrt{\dfrac{2\times 5.557\times 10^{-11}}{m}}[/tex]

[tex]v=3.337\times 10^{-5}\ \frac{m}{s}[/tex]

Thus, the speed of 0.10 sphere when it is moved to 0.20 kg  to the left is : [tex]v=3.337\times 10^{-5}\ \frac{m}{s}[/tex]

To know more about speed follow

https://brainly.com/question/4931057

Answer: Silver

Explanation:Silver has ahigh thermal conductivity of 429 watts/meter-k. Stainless steel on the other hand, has low thermal conductivity of 160 watts/meter-k.

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