Suppose that a dielectric sheet is inserted to completely fill the space between the plates and the potential difference between the plates drops to 1000 V. Determine the dielectric constant.A) 0.333B) 0.666C) 3.0D) 6.0E) 2000

The vector representing the coulombic force of attraction between the center charge and the numbered charges has a length of 1.8 * 10^{-4} units, pointing towards the center charge.

The magnitude of the coulombic force of attraction between the charge at the center (-2 * 10^{-5} c) and the numbered charges (1 * 10^{-8} c) can be calculated using the formula:
F = k * q1 * q2 / r^{2}
Where k is the Coulomb's constant (9 * 10^{9} N m2 / C2), q1 is the charge at the center (-2 * 10^{-5} C), q2 is the charge of the numbered charges (1 x 10-8 C), and r is the distance between the charges.
Assuming the distance between the charges is 1 meter, the magnitude of the coulombic force of attraction between them is:
F = (9 * 10^{9 }N m2 / C2) * (-2 * 10^{-5} C) * (1  * 10^{-8} C) / (1 m)^{2}
F = -1.8 ^ 10^{-4} N
Since the force is attractive, we represent it as a vector pointing towards the center charge. The length of the vector is proportional to the magnitude of the force, and we use a scale of 1 N of electric force. Therefore, the length of the vector is:
|F| / 1 N = |-1.8 * 10^{-4} N| / 1 N = 1.8 * 10^{-4}

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To find the value of the y-component of a position vector in the first quadrant with an x-component of 3 m and a magnitude of 13 m, we can use the Pythagorean theorem.

The position vector has components (x, y) and a magnitude (||v||) which is the length of the vector. In this case, x = 3 m and ||v|| = 13 m.

The Pythagorean theorem states that for a right-angled triangle, the square of the length of the hypotenuse (the side opposite the right angle) is equal to the sum of the squares of the lengths of the other two sides. In this case, the hypotenuse is the magnitude of the position vector, and the two sides are the x and y components. Therefore:

||v||² = x² + y²

Substitute the given values:

(13 m)²  = (3 m)²  + y²

169 m²  = 9 m² + y²

Now, solve for y² :

y²  = 169 m²  - 9 m²  = 160 m²

Take the square root of both sides to find y:

y = sqrt(160 m² ) = 4√10 m ≈ 12.65 m

So, the value of the y-component of the position vector is approximately 12.65 m.  

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Answer:

no se English plis

Explanatique

que si aumente la rad/s en el angular. de  su velocity

The half of the mirror that is necessary for the scattered light to reach the eye is the one that is facing toward the pencil. This is because light travels in straight lines, and so the scattered light from the pencil must bounce off a surface in order to reach the eye.

Since the mirror is placed at an angle, only the half facing the pencil will reflect the scattered light toward the eye. It's important to note that the mirror is not only reflecting the scattered light but also the direct light from the pencil. This means that the image of the pencil seen in the mirror will be a combination of both direct and scattered light.

However, the scattered light is what allows us to see the shape and texture of the pencil, as it provides additional information about the object. In summary, half of the mirror facing toward the pencil is crucial for the scattered light to reach the eye and provide additional information about the object's shape and texture.

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The length of the wire that is required is 653 km

The direction of the magnetic force on the conductor is perpendicular both to the direction of the magnetic field and to the direction of the current flow in the conductor.

The formula for the magnetic force on a current carrying conductor is given by:

F = BIL sin(θ)

We know that the force that is acting on a current carrying conductor can be given as;

F = BIL

L = F/BI

L = 12N/2.5 * 10^-6 * 7.35

L = 653 km

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If Hubble's constant (H0) were in fact 44 km/s/mly, the approximate age of the universe would be half of the current estimate, which is 7 billion years.

The solution to this scenario would require a re-evaluation and adjustment of current cosmological models and theories, as the age of the universe plays a significant role in understanding its origins and evolution. However, it is important to note that current observations and measurements support the current estimate of H0 and age of the universe.

Solution:
1. Hubble's constant (H0) is used to calculate the age of the universe.
2. The given value of H0 is 22 km/s/Mly, which results in an age of 14 billion years.
3. To find the age of the universe with H0 at 44 km/s/Mly, we can set up a proportion:
  (22 km/s/Mly) / 14 billion years = (44 km/s/Mly) / X
4. Cross-multiply and solve for X:
  22 * X = 44 * 14
  X = (44 * 14) / 22
  X = 28
5. The age of the universe with H0 at 44 km/s/Mly is approximately 7 billion years.

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When a ball bounces against a wall, there will be a large change in velocity in a short period of time. This means the impulse is large, hence the net force must be proportionately large as well.

Explanation: Impulse is defined as the change in momentum of an object, which is equal to the product of the net force acting on the object and the time interval over which the force acts.

In the case of a ball bouncing against a wall, the large change in velocity in a short period of time results in a large impulse.

Since impulse is directly proportional to the net force, a large impulse indicates that a proportionately large net force must be acting on the ball during the collision. This large net force is responsible for the drastic change in the ball's velocity as it bounces off the wall.

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The boxes will move together with the same acceleration since they have the same mass and are being pulled by the same force on a frictionless surface.

When two blocks with the same mass are connected by a string and pulled across a frictionless surface by a constant force, F, the following statement is correct about what will happen to the boxes: Both blocks will accelerate at the same rate, since they have the same mass and are experiencing the same net force (F) acting on the entire system. The tension in the string connecting the blocks will also be constant throughout the motion. The acceleration of the two boxes will be proportional to the force applied, divided by the mass of the boxes. Since the boxes have the same mass, they will experience the same acceleration, which means they will move at the same speed.

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The capacitor that has the largest potential difference between its plates is D.

Equation V = Q/C, where V is the potential difference, Q is the charge held on the capacitor, and C is the capacitance, gives the potential difference between the plates of a capacitor.

The four capacitors in the diagram all have the same charge because they are all linked in series. The capacitor with the highest capacitance will therefore have the smallest potential difference, and vice versa.

The capacitor with the smallest capacitance, and consequently the one with the greatest potential difference between its plates, according to the values shown in the diagram, is capacitor D. Therefore, (D) is the correct response.

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The students should identify the independent variable, dependent variable, and control variables in their experimental design.

Independent variable: The variable that is deliberately changed or manipulated by the students. In this case, the students may manipulate the angle of the sunlight by adjusting the position of the lamp.

Dependent variable: The variable that is measured by the students. In this case, the dependent variable is the temperature on Earth, which can be measured using the thermometer.

Control variables: The variables that are kept constant throughout the experiment to ensure that only the independent variable is affecting the dependent variable. In this case, the students should control variables such as the distance between the lamp and the globe, the type of lamp used, and the initial temperature of the globe.

Additionally, the students should also identify the hypothesis they are testing, the procedures they will follow to manipulate the independent variable, and the data analysis methods they will use to analyze their results.

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Yes, the data shows a relationship between the tension and the linear density of the elastic string. This relationship is described by the equation for the wave speed (v) on a string:

v = √(T/μ)
where v is the wave speed, T is the tension in the string, and μ is the linear density (mass per unit length) of the string. This equation shows that the wave speed in an elastic string is directly proportional to the square root of the tension and inversely proportional to the square root of the linear density. In other words, if the tension in the string is increased while the linear density is kept constant, the wave speed will increase. Conversely, if the linear density of the string is increased while the tension is kept constant, the wave speed will decrease. So, in general, there is a relationship between the tension in an elastic string and its linear density, which affects the wave speed of the string.

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If the Biot number is increased by increasing h while keeping everything else the same, less heat will be exchanged between the block and the fluid bathing the right face.

B) False because, An increase in the Biot number (Bi) is achieved by increasing the convective heat transfer coefficient (h) while keeping other parameters the same.

The Biot number is defined as:
Bi = hL/k
where L is the characteristic length of the object, and k is the thermal conductivity of the material.

As you mentioned, an increase in h would imply greater convection at the boundary, leading to more heat being exchanged at the boundary.

This increase in h could indeed come from an increase in the flow rate of the fluid that is bathing the right face. Therefore, the statement "less heat will be exchanged between the block and the fluid bathing the right face" is false.

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a) The angular acceleration produced by the drill is 1.8x10^5 rad/s^2, assuming it to be constant.

b) The drill bit makes approximately 6.0 revolutions as it comes up to speed.

a) We can use the equation for angular acceleration, α, which is given by α = Δω/Δt, where Δω is the change in angular velocity and Δt is the time taken for the change. Here, Δω = 350000 rpm - 0 rpm = 350000 rpm, and Δt = 2.0 s. Converting rpm to rad/s, we get Δω = 2π(350000/60) rad/s = 3669.4 rad/s. Therefore, α = 3669.4 rad/s / 2 s = 1.8x10^5 rad/s^2.

b) The number of revolutions made by the drill bit can be found using the equation θ = ω_i t + 0.5 α t^2, where θ is the angle turned, ω_i is the initial angular velocity (0 rpm), t is the time taken (2.0 s), and α is the angular acceleration (1.8x10^5 rad/s^2).

Substituting the values, we get θ = 0 + 0.5 x 1.8x10^5 rad/s^2 x (2.0 s)^2 = 360000 rad. Converting to revolutions, we get θ = (360000 rad)/(2π rad/rev) = 57296.9 rev. However, since we are asked for the answer in two significant figures, we round off to 6.0 revolutions.

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One theory suggests that interactions between galaxies can significantly influence their evolution, structure, and behavior. Galactic interactions are a crucial aspect of the cosmic environment, occurring when two or more galaxies come close enough for their gravitational forces to affect each other.

During these interactions, several phenomena can take place, including mergers, tidal interactions, and the formation of galactic bridges or tails. Mergers occur when two galaxies merge into a single, more massive galaxy, resulting in a rearrangement of their stars, gas, and dark matter. Tidal interactions, on the other hand, involve the exchange of material and energy due to gravitational forces, which can lead to the formation of new stars and even alter the shapes of the interacting galaxies.

Galactic bridges and tails are elongated structures of stars, gas, and dust that extend from interacting galaxies. These features are formed when galaxies pass close enough to each other for their gravitational forces to pull matter out of their main bodies, creating a "bridge" or "tail" of material that connects the two galaxies.

These interactions can also trigger starbursts, which are periods of intense star formation. The influx of gas and dust during an interaction provides ample fuel for the formation of new stars, often resulting in a temporary increase in the star formation rate.

Furthermore, galactic interactions can influence the central black holes in each galaxy, which may result in the emission of intense radiation and the formation of active galactic nuclei (AGN). This activity can impact the overall evolution of the galaxies, shaping their growth and development over time.

In conclusion, interactions between galaxies play a significant role in their evolution by influencing their structure, behavior, and the formation of new stars. Galactic interactions are an essential aspect of understanding the complex dynamics of our ever-changing universe.

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As the bar magnet is moved closer to the aluminum loop, a magnetic field is induced in the loop. The direction of the induced current in the loop, as viewed from above as the magnet is moving, would be counterclockwise. This is because the magnetic field of the bar magnet is changing.

And according to Faraday's Law of Electromagnetic Induction, this change induces an electric current in the loop that flows in a direction to create a magnetic field that opposes the change. In this case, the counterclockwise current creates a magnetic field that opposes the approach of the south pole of the magnet.

A bar magnet is a type of magnet that has a long, straight shape with a north pole at one end and a south pole at the other. Bar magnets can be made from materials that have ferromagnetic properties, such as iron, nickel, or cobalt.

When a bar magnet is suspended or placed on a pivot point, it will align itself in a north-south direction due to the Earth's magnetic field. This property of bar magnets is used in compasses to indicate the direction of north.

The magnetic field of a bar magnet is strongest at its poles, where the magnetic field lines converge, and weakest in the middle. The strength of the magnetic field is proportional to the magnet's magnetic moment, which is determined by the magnet's size, shape, and the magnetic properties of the material it's made from.

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The direction of the comet's angular momentum with respect to the sun is perpendicular to both the plane of the orbit and the direction of the momentum and follows the right-hand rule. Therefore, the direction of the comet's angular momentum is out of the page.

Here is a step-by-step process:

1. Angular momentum (L) is a vector quantity calculated using the cross product of the position vector (r) and the momentum vector (p): L = r x p.
2. In this case, both the position vector (r) and momentum vector (p) lie in the xy-plane.
3. The cross product of two vectors in the xy-plane will result in a vector perpendicular to the xy-plane.
4. The right-hand rule can be used to determine the direction of this perpendicular vector. Point your fingers in the direction of r and curl them toward p. Your thumb will point in the direction of L.
5. Since r and p lie in the xy-plane, applying the right-hand rule will result in your thumb pointing either into or out of the page.
6. In this case, as the comet orbits the sun counterclockwise, the direction of the angular momentum vector (L) will be out of the page.

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The coordinates of point P  has coordinates (0,1).

It can be found by using the ratio formula for dividing a line segment, which states that the coordinates of the point dividing the line segment AB in the ratio m:n are given by the formula:
P(x,y) = ((n*x1)+(m*x2))/(m+n), ((n*y1)+(m*y2))/(m+n)
where A(x1,y1) and B(x2,y2) are the given endpoints of the line segment, and m:n is the ratio in which the segment is divided.
Using this formula with the given coordinates of A(-4,-1), B(6,4) and the ratio 2:3, we get:
P(x,y) = ((3*(-4))+(2*6))/(2+3), ((3*(-1))+(2*4))/(2+3)
P(x,y) = (-12+12)/5, (-3+8)/5
P(x,y) = 0, 1
Therefore, the coordinates of point P are (0,1).

Hence , using the formula with the given values, we found that point P has coordinates (0,1).

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9.847 days from now, there will be 0.25 pounds of grass clippings in the bin.

Given grass clippings are placed in a bin where they decompose and for 0≤ t ≤ 10, the amount of grass clippings remaining in the bin is modeled by A(t) = 3.579(0.931)^t , where A(t) is measured in pounds and t is measured in days.

Use L(t) to predict the time at which there will be 0.25 pound of grass clippings remaining in the bin

The linear approximation equation is:

y = f(a) + f¹(a)(x - a)

Where f(a) is the function of the curve, f¹(a) is the first derivative of the curve function f(a), x is the value of point (x, y) where the tangent line touches the curve f(a) and y is the value of point (x, y) where the tangent line touches the curve f(a).

to find the value of 't

Let L(t) is the tangent line to A(t) at t = 10

now,

A(10) = 3.579 (0.931)¹⁰

A(10) = 3.579(0.489)

A(10) = 1.751

Let A¹(t) = 3.579 ln(931) (0.931)^t

then, A¹(10) = 11.969

therefore,

L(t) = 1.751 + (11.969)( t - 10)

value of 't' at L(t) = 0.25

0.25 = 1.751 + (11.969)(t - 10)

0.25 = 11.969t - 117.939

t = 118.189/11.969

t = 9.874

Hence, the time at which there will be 0.25 pound of grass clippings remaining the bin is 9.847 days.

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Disclaimer: The question given was incomplete on the portal. Here is the complete question.

Question: Grass clippings are placed in a bin, where they decompose. For 0≤t≤10, the amount of grass clippings remaining in the bin is modeled by A(t)=3.579(0.931^t ), where A(t) is measured in pounds and t is measured in days. For t>10,L(t) , the linear approximation to A at t=10, is a better model for the amount of grass clippings remaining in the bin. Use L(t) to predict the time at which there will be 0.25 pound of grass clippings remaining in the bin. Show the work that leads to your answer.

Based on the mentioned informations and provided values, about 99.75% of the star's light reached us during the transit, and the remaining 0.25% was blocked by the planet.

To estimate how much light was blocked by the planet during the transit, we need to know the percentage of the star's surface area that is covered by the planet.

Assuming that the planet is a perfect circle and that it passes directly in front of the star, the percentage of the star's surface area that is covered by the planet can be calculated using the formula:

% coverage = (π x (radius of planet/star)²) / (4 x π x (radius of star)²) x 100%

where π is the mathematical constant pi, and the radius of the planet/star is measured in the same units.

Let's say that the radius of the planet is 0.1 times the radius of the star. In that case, the percentage coverage can be calculated as:

% coverage = (π x (0.1)²) / (4 x π x (1)²) x 100% = 0.25%

This means that during the transit, 0.25% of the star's surface area was covered by the planet, and therefore, the amount of light that reached us was:

100% - 0.25% = 99.75%

So, about 99.75% of the star's light reached us during the transit, and the remaining 0.25% was blocked by the planet.

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The missing energy at box B is K.E = 590 J.

The missing energy at box C is P.E = 316 J

The missing energy at box D is K.E = 1,350 J

The missing values of the energy is calculated based on the law of conservation of energy as follows;

total energy, E = 1,350 J

For Box B;

K.E = E - P.E

K.E = 1,350 J - 760 J

K.E = 590 J

For box C;

P.E = E - K.E

P.E = 1350 J - 1034 J

P.E = 316 J

For box D

K.E = E - P.E

K.E = 1350 J - 0 J

K.E = 1350 J

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The beat frequency of 378 Hz tells us that the frequency difference between the two plucked locations is 378 Hz. Since one location primarily excites the third harmonic and the other primarily excites the fifth harmonic, we can set up the following equations:

f3 = 3v/2L and f5 = 5v/2L

Where f3 and f5 are the frequencies of the third and fifth harmonics respectively, v is the wave propagation speed on the strings, and L is the length of the strings.

We can rearrange these equations to solve for v:

v = (2L/3)f3 = (2L/5)f5

Plugging in the values for L and the frequencies corresponding to the third and fifth harmonics, we get:

v = (2 x 0.62 m/3) x 378 Hz/3 = 111.8 m/s

v = (2 x 0.62 m/5) x 378 Hz/5 = 144.5 m/s

Since both strings have the same tension, their wave propagation speeds should be the same. Therefore, we can take the average of these two values to get the final answer:

v = (111.8 m/s + 144.5 m/s)/2 = 128.2 m/s

So the wave propagation speed on the guitar strings is 128.2 m/s.

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To indicate the direction of the force exerted by the water on the inside of the fishbowl at points A and B, the vector will be pointing downwards as gravity pulls the water downwards.

For the force exerted by the water on the outside of the goldfish at points C, D, and E, the vectors will be pointing upwards as the water pushes against the goldfish from all sides. The angles of the vectors will depend on the orientation of the points on the fishbowl or goldfish.

The force exerted by the water on the fishbowl or goldfish is due to the pressure exerted by the water on the surfaces. At points A and B, the water exerts a force on the inside of the fishbowl due to gravity pulling the water downwards. This force will be perpendicular to the surface of the fishbowl and will be pointing downwards.

At points C, D, and E, the water exerts a force on the outside of the goldfish due to the pressure of the water pushing against the goldfish from all sides. The direction of this force will be perpendicular to the surface of the goldfish and will be pointing upwards.

The angles of the vectors will depend on the orientation of the points on the fishbowl or goldfish. Overall, the direction and magnitude of the forces exerted by the water are important for understanding the dynamics of the system.

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Astronomers believe that the mergers of smaller galaxies can trigger the formation of larger galaxies and active galactic nuclei (AGN).

When smaller galaxies merge, their stars, gas, and dark matter combine, creating a larger and more massive galaxy. This process also often leads to an increase in star formation, as the colliding gas clouds create regions of high density, which are conducive to the birth of new stars.

Additionally, the merger can cause gas and dust to accumulate in the central region of the new galaxy, leading to the formation of an active galactic nucleus (AGN). This AGN consists of a supermassive black hole surrounded by an accretion disk of gas, which emits high amounts of energy as the gas spirals into the black hole.

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Answer:

the answer is

Explanation:

Kepler, Galileo, Copernicus

The heliocentric model of the solar system was supported by three prominent scientists: Kepler, Galileo, and Copernicus. These scientists helped to develop and prove the theory that the Sun, not the Earth, is the center of our solar system.

The three scientists who supported the heliocentric model of the solar system were Kepler, Galileo, and Copernicus. The heliocentric model proposes that the sun is the center of the solar system, which was a revolutionary theory in the time of these scientists. Copernicus was notable for his book 'On the Revolutions of the Celestial Spheres', where he laid the groundwork for the heliocentric model, Galileo supported Copernicus's theory with his observations using an early telescope, and Kepler refined Copernicus's model with his Laws of Planetary Motion that supported the idea of a sun-centered solar system.

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The facet of adolescent egocentrism called the imaginary audience refers to teenagers' belief that everyone is watching everything they do.

Egocentrism refers to the idea that a particular observer's perspective or frame of reference is the only one that matters in determining physical phenomena. This can lead to errors in understanding and describing physical events, as different observers may have different perspectives that affect their observations.

For example, in special relativity, different observers moving at different velocities will measure different values for the same physical quantities, such as time and distance. A person who is egocentric in their thinking may believe that their measurements are the only ones that matter and may not take into account the perspectives of other observers. Egocentrism can also be a hindrance to collaboration and communication among physicists, as individuals may be more focused on their own observations and interpretations rather than working together to develop a shared understanding of a particular phenomenon.

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The electric potential at the center of the conducting sphere is (kQ/R), where k is the Coulomb's constant. This can be derived using the formula for electric potential due to a point charge and superposition principle for electric potential.

The conducting sphere with a total charge Q will have an electric potential due to its own charge distribution. This electric potential can be calculated at any point outside or inside the sphere.
At any point outside the sphere, the electric potential is given by V = kQ/r, where r is the distance from the center of the sphere to the point outside. As r approaches infinity, the electric potential becomes zero, which is given in the question.
Now, at the center of the sphere, the electric potential due to the sphere's own charge distribution will be the sum of electric potential due to all charges on the sphere. By the symmetry of the sphere, we can assume that the electric potential at the center is the same as the electric potential due to a point charge at the center.
The electric potential due to a point charge q at a distance r from it is given by V = kq/r. For the conducting sphere, we can consider the entire charge Q to be concentrated at the center of the sphere, which is the same as a point charge Q at the center.
Thus, the electric potential at the center of the sphere is V = kQ/R.
The electric potential at the center of a conducting sphere with a total charge Q and radius R is given by (kQ/R), where k is the Coulomb's constant. This is derived using the formula for electric potential due to a point charge and superposition principle for electric potential.

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The tension in the cable is 1450 N. The appropriate units for tension are newtons (N).

we need to use the principle of torque equilibrium. The torque due to the weight of the steel beam must be balanced by the torque due to the tension in the cable.

The torque due to the weight of the steel beam can be calculated as follows:
torque = weight x distance from the pivot point
torque = 1450 kg x 2.5 m
torque = 3625 N*m

The torque due to the tension in the cable can be calculated as follows:
torque = tension x distance from the pivot point
torque = tension x 2.5 m
Since the system is in equilibrium, these two torques must be equal:
3625 N*m = tension x 2.5 m

Solving for tension, we get:
tension = 3625 N*m / 2.5 m
tension = 1450 N

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The velocity of the ball after gaining 20 J of kinetic energy is approximately 10 m/s.

We can use the conservation of energy principle to find the  haste of the ball after gaining 20 J of kinetic energy.

The conservation of energy principle states that the total energy of a unrestricted system remains constant, meaning that energy can not be created or destroyed, only  converted from one form to another.   originally, the ball is at rest, which means that it has no kinetic energy. thus, the total energy of the system is equal to the implicit energy of the ball, which is zero. After gaining 20 J of kinetic energy, the total energy of the system is 20J. where KE is the kinetic energy, m is the mass, and v is the  haste of the ball.  

Rearranging the formula,

we get   v =  √( 2KE/ m)  

Substituting the values given, we get

  v =  √( 2 × 20 J/0.4 kg) ≈ 10 m/ s

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The kickball has less mass, while the soccer ball has greater mass.

Newton's second law of motion states that, the force applied to an object is directly proportional to the product of mass and acceleration of the object.

Mathematically, Newton's second law is given as;

F = ma

where;

For a constant mass of an object, an increase in force causes increase in acceleration of the object. So increase in acceleration of an object implies increase in the applied force of the object.

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