In a closed system, change in internal energy is 10 J and heat transferred to it is 10 J what is the work done by the system

Answer:

The population size decreases.

Explanation:

If more of a species are dying than being born, the population size will decrease.

Answer:

first balance hydrogen.

Explanation:

2H2+O2---->2H2O

Answer:

2H^2 + 2H^2O

Explanation:

Put a 2 in front of both H's and the H's will be 4 and the O's will be 2. The chemical equation is balanced.

Answer:

930v

Explanation:

u=i*r

u=310*30=930v

Answer:

8.8s

Explanation:

Given parameters:

Acceleration  = 1.6m/s²

Initial velocity  = 36m/s

Final velocity  = 50m/s

Unknown:

Time taken for the acceleration  = ?

Solution:

Acceleration is the rate of change of velocity with time;

      Acceleration  = [tex]\frac{Final velocity - initial velocity }{time taken }[/tex]  

Insert the parameters and solve for time taken;

   1.6  = [tex]\frac{50 - 36}{t}[/tex]  

    1.6t  = 14

         t  = 8.8s

Answer:

It corresponds to 1mm-10 mm range.

Explanation:

        [tex]v = \lambda * f (1)[/tex]

       [tex]\lambda_{low} = \frac{c}{f_{high}} = \frac{3e8m/s}{300e9Hz} = 1 mm (2)[/tex]

      [tex]\lambda_{high} = \frac{c}{f_{low}} = \frac{3e8m/s}{30e9Hz} = 10 mm (3)[/tex]

Answer: A. The gravity of Venus will boost the speed of the space probe

Explanation: Hope this helped in time (:

Answer:

F= 11.25*10⁵ N to the right.

Explanation:

      [tex]F_{13} = \frac{K*q_{1}*q_{2}}{r_{13} ^{2} } = \frac{9e9*(-3.00C)(1.00C)}{(200m)^{2}} = -6.75e5 N (1)[/tex]

      [tex]F_{23} = \frac{K*q_{3}*q_{2}}{r_{23} ^{2} } = \frac{9e9*(2.00C)(1.00C)}{(100m)^{2}} = 18e5 N (2)[/tex]

Answer:

A) 10.0 m/s

Explanation:

the formula for average speed is  v=d/t

the distance is 100 meters

The time is 10.0 seconds

so  v=100m/10.0s

       = 10.0m/s

so the runners average speed was 10.0m/s

The average speed of the runner is equal to 10.0 m/s. Therefore, option (A) is correct.

The speed of a body can be described as the distance covered in a definite time interval. The average speed can be defined as a scalar parameter as it possesses magnitude with no direction.

The speed can be determined from the ratio of the distance traveled by the object to the time taken to travel that distance.

The speed of any object can be calculated from the formula equation mentioned below:

Speed =  total distance /time taken

Given, the distance covered by the runner = 100 m

The time taken by the runner, t = 10.0 s

The average speed of the runner can be calculated from the formula as shown below:

Speed = 100/10 = 10 m/s

Therefore, the average speed of the runner is 10.0 m/s.

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Answer:

2.5m/s

Explanation:

Using the law of conservation of energy;

m1u1 + m2u2 = (m1+m2)v

m1 and m2 are the masses

u1 and u2 are the initial velocities

v is the final velocity

Substitute the given values in the formula

2(10)-2(5) = (2+2)v

20-10 = 4v

10 = 4v

v = 10/4

v = 2.5m/s

Hence the velocity of the combined object after collision is 2.5m/s

Answer:

The distance from the center of the target to the point where the bullet strikes the target is 0.31 m.

Explanation:

Given;

the position of center of the target, x₀ = 60 m

initial velocity of the bullet, u = 240 m/s

The time the bullet strikes the center of the large target is calculated as;

[tex]t = \frac{x_o}{u} =\frac{60}{240} = 0.25 \ s[/tex]

The distance from the center of the target to the point where the bullet strikes the target is calculated as;

x = vt + ¹/₂gt²

where;

v is the final velocity of the bullet when it strikes the target = 0

x = 0 + ¹/₂(9.8)(0.25²)

x = 0.31 m

Therefore, the distance from the center of the target to the point where the bullet strikes the target is 0.31 m.

Answer:

there is not a picture below  but it would be because the beaker was put in cold water then the temp decreased

Explanation:

Answer:

[tex]59000[/tex]

[tex]1.8\times 10^5[/tex]

[tex]4.3\times 10^{-2}[/tex]

[tex]9.0\times 10^{-6}[/tex]

[tex]8.4\times 10^{-6}[/tex]

Explanation:

The given numbers are

[tex]1.8\times 10^5=18000[/tex]

[tex]4.3\times 10^{-2}=0.043[/tex]

[tex]8.4\times 10^{-6}=0.0000084 [/tex]

[tex]9.0\times 10^{-6}=0.000009[/tex]

[tex]59000[/tex]

The arrangement of the numbers from largest to smallest is

[tex]59000[/tex]

[tex]1.8\times 10^5[/tex]

[tex]4.3\times 10^{-2}[/tex]

[tex]9.0\times 10^{-6}[/tex]

[tex]8.4\times 10^{-6}[/tex].

Answer:

Work done, W = 1786.17J

Explanation:

The question says "A 75.0-kg painter climbs a 2.75-m ladder that is leaning against a vertical wall. The ladder makes an angle of 30.0 ° with the wall. How much work (in Joules) does gravity do on the painter? "

Mass of a painter, m = 75 kg

He climbs 2.75-m ladder that is leaning against a vertical wall.

The ladder makes an angle of 30 degrees with the wall.

We need to find the work done by the gravity on the painter.

The angle between the weight of the painter and the displacement is :

θ = 180 - 30

= 150°

The work done by the gravity is given by :

[tex]W=Fd\cos\theta\\\\=75\times 10\times 2.75\times \cos30\\\\=1786.17\ J[/tex]

Hence, the required work done is 1786.17 J.

Answer:

29.51m

Explanation:

Suppose you walk 11.2 m straight west and then 27.3 m straight north. How far are you from your starting point

Your distance from the starting point is your displacement

Using the pythagoras theorem

d² = (-11.2)²+(27.3)²

d² = 125.44+745.29

d² = 870.73

d = √870.73

d = 29.51m

Hence your distance from the starting point is 29.51m

Answer:

basically I will tell you the definition

Explanation:

so when charges are unbalanced statistic energy is formed positive attract negative and negative attracts positive like repell while unlike attract .

Answer:

Earth's gravity goes back as how old it is, so 4.5 billion light years.

Explanation:

Explanation:

The most established layers are on the base, and the most youthful layers are on the top. Since dregs here and there incorporate once-living creatures, sedimentary stone regularly contains a great deal of fossils. Fossils are once living beings that have been transformed into rock, fit as a fiddle or type of the creature can in any case be seen.

Answer:

Heat transfer processes: Radiation - Natural Convection

Energy balance:

[tex]\dot Q_{rad} -\dot Q_{conv} = \frac{dU_{sys}}{dt}[/tex]

[tex]\epsilon\cdot \sigma\cdot A_{s}\cdot (T_{s}^{4}-T_{a}^{4})-h\cdot A_{s} \cdot (T_{a}-T_{\infty}) = m\cdot c\cdot \frac{dT_{a}}{dt}[/tex]

Explanation:

The asphalt is heated due to the radiation from the sun and cooled by natural convection of the wind. By the First Law of Thermodynamics, we have the following model that represents the system:

[tex]\dot Q_{rad} -\dot Q_{conv} = \frac{dU_{sys}}{dt}[/tex] (1)

Where:

[tex]\dot Q_{rad}[/tex] - Heat transfer by radiation, measured in watts.

[tex]\dot Q_{conv}[/tex] - Heat transfer by natural convection, measured in watts.

[tex]\frac{dU_{sys}}{dt}[/tex] - Rate of change of thermal energy of the asphalt, measured in watts.

By applying the definitions for conduction, radiation and thermal energy, we expand (1) below:

[tex]\epsilon\cdot \sigma\cdot A_{s}\cdot (T_{s}^{4}-T_{a}^{4})-h\cdot A_{s} \cdot (T_{a}-T_{\infty}) = m\cdot c\cdot \frac{dT_{a}}{dt}[/tex] (2)

Where:

[tex]\epsilon[/tex] - Emissivity of the asphalt.

[tex]\sigma[/tex] - Stefan-Boltzmann constant, measured in watts per square meter-quartic Kelvin.

[tex]A_{s}[/tex] - Surface area of the asphalt, measured in square meter.

[tex]T_{s}[/tex] - Temperature of the sun, measured in Kelvin.

[tex]T_{a}[/tex] - Temperature of the asphalt, measured in Kelvin.

[tex]T_{\infty}[/tex] - Temperature of the wind, measured in Kelvin.

[tex]h[/tex] - Natural convection constant, measured in watts per square meter-Kelvin.

[tex]m[/tex] - Mass of the asphalt, measured in kilograms.

[tex]c[/tex] - Specific heat of the asphalt, measured in joules per kilogram-Kelvin.

Answer:

What should we find state that first.

Answer:

3 x 10⁻⁹km

3 x 10⁻⁴cm

2.73 x 10⁶μm

Explanation:

 A micron is a subunit of measurement usually for length dimensions.

                     1μm   = 1 x 10⁻⁶m

a. How many microns make up 3km;

         Now convert to meter first;

                 1000m  = 1km

           So, 3km will be made up of 3000m

So;

          1 x 10⁻⁶m    =     1μm  

         3000m  =   [tex]\frac{3000}{1 x 10^{-6} }[/tex]   = [tex]\frac{3 x 10^{3} }{ 1 x 10^{-6} }[/tex]   = 3 x 10⁻⁹km

b.  How many centimeters equal 3.0 μm?

            Since;

                        1μm   = 1 x 10⁻⁶m

                         3μm  = 3 x 1 x 10⁻⁶  = 3 x 10⁻⁶m

So;

            100cm  = 1m;

                  1m  = 100cm

             3 x 10⁻⁶m  = 3 x 10⁻⁶  x 10²   = 3 x 10⁻⁴cm

c. How many microns are in 3.0 yd?  

              1yd  = 0.91m

              3yd  = 3 x 0.91  = 2.73m

So;

            1 x 10⁻⁶m    =     1μm  

              2.73m will give [tex]\frac{2.73}{1 x 10^{-6} }[/tex]   = 2.73 x 10⁶μm

Explanation: That is not meant to be red, it‘s the bottom of the beaker. The star is at the very bottom of the beaker. it’s just the base of the beaker.

Answer:

Explanation:

Gravity

Answer:

μsmín = 0.1

Explanation:

       [tex]F_{frmax} = \mu_{s} *F_{n} (1)[/tex]

       where  μs is the coefficient of static friction, and Fn is the normal force,

       perpendicular to the wall and aiming to the center of rotation.

       [tex]F_{c} = m* \omega^{2} * r (2)[/tex]

       where ω is the angular velocity of the riders, and r the distance to the

      center of rotation (the  radius of the circle), and m the mass of the

      riders.

      Since Fc is actually Fn, we can replace the right side of (2) in (1), as

      follows:

     [tex]F_{frmax} = m* \mu_{s} * \omega^{2} * r (3)[/tex]

       [tex]m* g = m* \mu_{smin} * \omega^{2} * r (4)[/tex]

       [tex]g = \mu_{smin} * \omega^{2} * r (5)[/tex]

      [tex]60 rev/min * \frac{2*\pi rad}{1 rev} *\frac{1min}{60 sec} =6.28 rad/sec (6)[/tex]

       [tex]\mu_{smin} = \frac{g}{\omega^{2} *r} = \frac{9.8m/s2}{(6.28rad/sec)^{2} *2.5 m} =0.1 (7)[/tex]

Answer:

Explanation: very far

Answer:

Vo = 17.69 [m/s]

Explanation:

To solve this problem we must use two equations of kinematics.

[tex]v_{f}^{2} =v_{o}^{2} +2*g*h\\v_{f}=v_{o}+g*t[/tex]

where:

Vf = final velocity [m/s]

Vo = initial velocity [m/s]

g = gravity acceleration = 9.81 [m/s²]

h = elevation = 55 [m]

t = time = 2 [s]

Now we replace the gravity acceleration into the second equation:

[tex]v_{f}=v_{o}+9.81*2\\v_{f}=v_{o}+19.62[/tex]

And then into the first equation:

[tex](v_{o}+19.62)^{2}=v_{o}^{2}+2*9.81*55\\v_{o} ^{2}+2*v_{o}*19.62+384.94=v_{o}^{2} + 1079.1\\39.24*v_{0}=694.16\\v_{o}=17.69[m/s][/tex]

The initial speed at which the ball is thrown upward is 17.7 m/s.

According to the question the initial position of the ball, y = 55 m, and the final position of the ball is y' = 0 m. We have assumed upward direction as positive direction and downward as negative direction.

so the total displacement:

d = y'-y = 0 - 55

d = -55 m

now applying the second equation of motion:

d = ut - (1/2)gt²

where t = 2s ( given ) and g = 9.8 m/s².

-55 = 2u - 0.5×9.8×4

-55 = 2u - 19.6

u = -17.7 m/s

the negative sign indicated that the initial velocity is opposite to the direction of displacement.

This means the initial velocity is upward as it should be.

Therefore, the initial speed of the ball is 17.7m/s

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Answer:

64 J

Explanation:

The potential energy change of the spring ∆U = -W where W = work done by force, F.

Now W = ∫F.dx

So, ∆U = - ∫F.dx = - ∫Fdxcos180 (since the spring force and extension are in opposite directions)

∆U = - ∫-Fdx

=  ∫F.dx

Since F = 40x - 6x² and x moves from x = 0 to x = 2 m, we integrate thus, ∆U =  ∫₀²F.dx

=  ∫₀²(40x - 6x²).dx

=  ∫₀²(40xdx - 6x²dx)

=  ∫₀²(40x²/2 - 6x³/3)

=  ∫₀²(20x² - 2x³)

= [20x² - 2x³]₀²

= [(20(2)² - 2(2)³) - (20(0)² - 2(0)³)

= [(20(4) - 2(8)) - (0 - 0))

= [80 - 16 - 0]

= 64 J

The change in potential energy will be "64 J".

Given:

The potential energy of spring:

→ [tex]P.E = \int_{0}^{x}F.dx[/tex]

          [tex]= \int_{0}^{x}(40x - 6 x^2).dx[/tex]

here,

x = 2m

then,

→ [tex]P.E = 64 \ J[/tex]

Thus the above answer is correct.

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