what is the work done by a constant force in accelerating a 2kg block from rest to 15 m/s in a distance of 100m​

A horizontal floor receives a ball of mass m that is dropped upon it from height h, colliding with it at speed u. If the floor's coefficient of restitution is, the ball will get an impulse on its second rebound off the floor.

A negative impulse indicates that the net force is moving in the opposite direction since impulse is a vector. Similar to this, a positive impulse denotes a positive net force.

The centre of mass of the ball experiences translational (rectilinear) motion when it rolls on the ground, whereas the ball itself experiences rotating motion in the centre of mass frame. Thus, rectilinear motion is demonstrated by a ball rolling on the ground.

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The kinetic energy of the moving car is converted from potential energy.

An easy illustration is a car that is parked at the top of a hill. The car gains more kinetic energy and loses more potential energy as it goes down the slope, increasing its kinetic energy. The car transforms kinetic energy into potential energy as it ascends the hill back to the top.

The marble moves from kinetic energy to gravitational potential energy as it ascends the small hill, then backwards as it descends the hill on the opposite side.

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Atmospheric or it is also called as atmospheric perspective  is an art that creates the illusion of space in the two dimension artwork. Atmospheric emphasizes spatial intervals, the range between an object with other objects where as objects recede into the distance, the object become less detailed, lower in contrast, and getting more blurry.

Art is any activity or product that human do in purpose to create something aesthetic. There are some of category in art such as painting, sculpture, architecture, literature, music, dance, cinema, etc. The value of a certain is different for every people because of every person perspective is unique.

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Answer: C) waves

Explanation: According to Dutch scientist Christiaan Huygens, light is made of waves.  Huygens proposed the wave theory of light in the 17th century, which stated that light travels as a wave through a medium, such as air or water.

Huygens observed that light waves can be diffracted, refracted, and reflected, which supported his theory.  He believed that these wave phenomena could be explained by the interaction of tiny, spherical wavelets emitted by light sources.

Huygens' wave theory of light was later supported and further developed by other scientists, including Thomas Young and Augustin-Jean Fresnel.  It provided a basis for understanding various optical phenomena, such as interference and diffraction patterns.

While Huygens' wave theory of light was significant, it was later superseded by the electromagnetic theory of light proposed by James Clerk Maxwell.  This theory unified the understanding of light as both a wave and an electromagnetic wave, and it is widely accepted today.

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The second partial derivatives of f(x, y) = (sin(mx + ny))² are:

The reason these are the second partial derivatives is because we are taking the derivative of the function twice with respect to x and y.

∂f/∂x = ∂/∂x (sin(mx + ny))² = ∂/∂x (sin²(mx + ny)) = 2sin(mx + ny)cos(mx + ny) * ∂/∂x (mx + ny) = m cos(mx + ny)sin(mx + ny)

∂²f/∂x² = ∂/∂x (m cos(mx + ny)sin(mx + ny)) = -m²sin²(mx + ny)

∂²f/∂y² = ∂/∂y (n cos(mx + ny)sin(mx + ny)) = -n²sin²(mx + ny)

∂²f/∂x∂y = ∂/∂y(m cos(mx + ny)sin(mx + ny)) = mn cos(mx + ny)sin(mx + ny)

So, all these second derivatives are the result of applying the chain rule and the product rule several times.

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Given that static friction is defined as F equal to the sum of a coeffficient for static friction as well as the normal response N, we obtain the following value: 0.297

Because different sections of the Earth are heated differently by the sun, resulting in pressure differences, solar sun is the primary source of pressure differences that cause winds to occur.

After being projected onto a nearby horizontal plane, the pressure gradient results in a two-dimensional vector known as the horizontal pressure gradient. This force of the horizontal pressure gradient is directed from higher pressure toward lower pressure very close to the Earth's surface.

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If the volume of the container is doubled to 2V at a constant temperature, then the resulting gas pressure will be halved.

The ideal gas law states that the product of the pressure and volume of an ideal gas is equal to the product of the number of moles of the gas and the ideal gas constant multiplied by the temperature of the gas.

PV=nRT

This means that if the volume of the container is doubled to 2V at a constant temperature, the resulting gas pressure will be halved to P/2.

This is because the number of moles of gas and the temperature remains constant, so the only variable that can change is the pressure, which is inversely proportional to the volume.

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0.0080 ×10 8 m/s² is the magnitude of the acceleration of a proton at rest at point c

0.016×10 8  m/s² is the magnitude of the acceleration of a proton at rest at point d

We apply here faraday, law,

∮C→E⋅d→l=dϕmdt

For a uniform electric field;

∮C→E⋅d→l=E(2πr)∮

Here,

r = radius of the circle

Since we see that the magnetic field is perpendicular to the area of the circle, then the magnetic flux will be,

ϕm=2πrB  (B= magnetic field)

E=r/2 dB/dt

Now, the force on the  proton will be at distance r from the center of the circle ,

F=qE=ma

Written as,

a=qEm

Here,

q=1.6×10−19 C ( charge of the proton)

m=1.67×10−27 kg ( mass of the proton)

Thus,

a=qr/2m dB/dt

to find at point C,

we know that

r=1 cm=0.01 m

a=1.6×10−19 C X 0.01 m  X 0.6 T/s  / 2 ×1.67×10−27 kg

=0.0080 ×10⁸ m/s2

At the point D,

We know that,

r=2 cm = 0.02 m

Then,

a=1.6×10−19 C×0.02 m×0.6 T/s / 2×1.67×10−27 kg

=0.016×10⁸  m/s2

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We apply positive electric charges to two little plastic spheres. The amount of the repelling force between them when they are separated depends on how charged each sphere is. In light of this, total value of all of the two was 7.4 x 10-7 C.

Charge, often referred to as electric control, electrical charge, and electrostatic charge, and denoted by the symbol q, is a property of a unit unit matter that expresses that degree to which it has much more and fewer protons than electrons.

Subatomic particles or matter particles serve as examples of different types of charges: The charge on a proton is positive. Negative charge is a property of electrons. Null charge exists in neutrons.

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The quadratic function that models the path of the jump is [tex]f(x)=-\frac{1}{8} (x-2)^{2}+\frac{1}{2}[/tex]

It is discovered that, given the vertex, the quadratic model is provided by different equations and the condition given is the parabolic so, the equation that we will use will be the parabolic equation that will derive into quadratic equation.

The following is the equation for a parabola with vertex (h,k):

[tex]f(x)=a (x-h)^{2}+k[/tex]

In this issue:

Leaps 2 feet horizontally, therefore the vertex's x-coordinate is 2, or

it is given by h=2.

The vertex's y-coordinate is because the highest point is half a foot high, or it is given by k=[tex]\frac{1}{2}[/tex]

Then:

[tex]f(x)=a (x-2)^{2}+\frac{1}{2}[/tex]

begins at (0,0), or the moment when x=0 and y=0, and this is utilized to find a.

[tex]0=a (0-2)^{2}+\frac{1}{2}[/tex]

[tex]4a=-\frac{1}{2}[/tex]

[tex]a=-\frac{1}{8}[/tex]

The equation is then:

[tex]f(x)=-\frac{1}{8} (x-2)^{2}+\frac{1}{2}[/tex]

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The quadratic function models the path of the jump as f(x) = -1/8(x-2)² + 1/2

The parabola's general equation is given as,

f(x) = a ( x - h )² + k

Given that,

Leaps horizontally 2 ft, means that, x-coordinate of the vertex is 2, h = 2.

The highest point is half a foot, y- coordinate of the vertex is 1/2, k = 1/2.

Then, f (x) = a(x-2)² + 1/2

By placing, x(0,0), we can find a.

0 = a(0-2)² + 1/2

4a = -1/2

a = -1/8

Thus, the equation is, f(x) = -1/8 (x-2)² + 1/2

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Harrison realized that the watch had the potential to be the timekeeping solution to the longitude problem with a few tweaks.

Realizing this led to the creation of H4, which has a diameter of just 13 centimeters. One of the upgrades Harrison made was a larger than usual balance wheel, which is a feature of most pocket watches. It had a greater frequency, pulsing five times per second, or 18,000 times each hour. The watch had a tiny remontoir and a revised version of Harrison's temperature compensation from H3.

The only issue, if you can even call it that, was that H4 needed oiling. However, Harrison used a creative approach to reducing friction by installing jeweled bearings at various points.

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If his resistance is 2200 Ohm , the fatal voltage is 110 Volt.

The relation between resistance, voltage, and current is given by the Ohm law:

V = I R

Where:

V = voltage

I = current

R = resistance

Parameters from the problem are:

I = current = 50 mA = 0.05 A

R = resistance = 2200 Ohm

Hence,

V = IR

  = 0.05 x 2200 = 110 Volt

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The best prediction, in this case, is - When it was empty, the cart had less kinetic energy.

Kinetic energy is expressed by the following formula

[tex]K.E. = \frac{1}{2} mv^{2}[/tex]

where m and v represent the mass and the velocity of the particle respectively.

As the cart was moved at a constant rate of 2 meters per second in both directions, we can safely consider velocity to be constant.

Hence, the only variable element is the mass of the cart. Initially, the cart was full of groceries, hence it had more mass compared to the later scene when the cart was empty.

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Answer:

(Question) A city gets its electricity from a dam, where water is stored in a reservoir. How does the water provide the city with its power?

(Answer) Potential energy in the water becomes kinetic energy as it moves through turbines, which turn kinetic energy into mechanical energy that spins a generator, which changes mechanical energy into electricity.

(Question) An acorn rolls off a roof and falls to the ground. Which statement best describes the change in energy?

(Answer) The acorn’s potential energy decreases as its kinetic energy increases.

(Question) An airplane carries 320 passengers from Phoenix to Los Angeles flying at an average speed of 490 miles per hour. On the return flight, the plane carries 164 passengers and travels at the same average speed. What happens to the plane’s kinetic energy?

(Answer) On the return flight, the plane has less kinetic energy.

(Question) A racehorse is running at 42 miles per hour, equivalent to 18.8 meters per second. The horse and its jockey have a combined mass of 512 kilograms. How much kinetic energy do they have?

(Answer) 90,480.6 J

(Question) Which object has kinetic energy?

(Answer) balloon rising in the sky

(Question) Mr. Starr pushed a cart full of groceries to his car. After emptying the cart, he pushed it back to the store. He pushed the cart at a speed of 2 meters per second each way. Which is the best prediction?

(Answer) When it was empty, the cart had less kinetic energy.

(Question) A student fires a toy rocket into the sky. When does the rocket have the most potential energy?

(Answer) when the rocket reaches its highest point

(Question) What is the best description of one billiard ball hitting a second billiard ball?

(Answer) Most of the kinetic energy in the first ball is transferred to the second ball.

(Question) A roller-coaster car is at the top of a hill. The car and its passengers have a combined mass of 1,088 kilograms. If the hill is 62 meters tall, how much potential energy does the car have?

(Answer) 661,068.8 J

(Question) A roller-coaster is at the top of a 62-meter hill. The car and its passengers have a total mass of 1,088 kilograms. By the time the car reaches the bottom of the hill, its speed is 74 miles per hour (33 meters per second). How much kinetic energy does the car have at the bottom of the hill?

(Answer) 592,416 J

(Question) A diagram is drawn showing a swing set with a swing pulled backward prior to release. The diagram shows how the swing will move forward and then backward after it is initially released. At which point in the diagram is all of the energy gravitational potential energy?

(Answer) when the swing is pulled back prior to release

(Question) essay

(Answer) good luck

(Question) essay

(Answer) good luck

Explanation:

I just completed the assignment. UwU

Heat capacity of a substance is the amount of heat energy required to raise the temperature of that substance by one degree celcius. Specific heat capacity of a substance is the amount of heat energy required to raise the temperature of a unit mass by one degree celcius.

We can look into the question by using the examples of water and oil.Specific heat capacity of water is 4184 JKg⁻¹K⁻¹.This means the amount of heat energy required to raise the temperature of 1 Kg water by 1 degree celcius is 4184K.Whereas,specific heat capacity of oil is 2100 JKg⁻¹K⁻¹.Hence oil needs only 2100 J to increase its temperature by one degree celcius which is half than that of water.

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There are two main methods for charging an object without any physical contact between charged objects namely induction and Coulombic attraction/repulsion.

Induction is a process by which a charged object can influence the distribution of charges in a nearby conductor without actually touching it. When a charged object is brought near a conductor, it causes the electrons in the conductor to rearrange themselves in an effort to balance out the overall charge distribution. This can result in one end of the conductor becoming positively charged and the other end becoming negatively charged.

Coulombic attraction/repulsion is a phenomenon that occurs when two charged objects are brought close together. According to Coulomb's Law, if the two objects have opposite charges (e.g. one is positive and the other is negative), they will experience a force of attraction. If the two objects have the same charge (e.g. both are positive or both are negative), they will experience a force of repulsion.

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Your question seems incorrect, but I assume the correct question was:

"What are the two main methods to charge an object without any physical contact between charged objects?"

The bowling ball experiences the greater magnitude impulse during the collision since it is initially at rest and is given the momentum of the small ball which has a speed of 5m/s.

The impulse of the bowling ball can be calculated using the equation impulse = change in momentum = mvf - mvi, where m is the mass of the bowling ball, vf is its final velocity, and vi is its initial velocity.

Since the bowling ball is initially at rest (vi = 0), the impulse can be calculated as mvf = m(5m/s) = 5m^2/s. The impulse of the small ball can be calculated in the same way, giving an impulse of 5m^2/s. Therefore, the bowling ball experiences a greater magnitude impulse during the collision.

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The wavelength of the surface wave in 1.2 m

(a)since there are two antinodes and one node(where water is motionless), This is the first mode of a pipe open at both ends

so \lambda= 2L

\lambda=2(1.3)

\lambda=2.6m

(c)frequency= 10/22=0.455 Hz

v= f\lambda

v=0.455(2.6)

\lambda=1.2 m/s

Surface waves are typically lower frequency than body waves and move through Earth's surface material more slowly. On a seismogram, they may be easily differentiated. Deeper earthquakes result in weaker surface waves, which are stronger as the earthquake depth increases.

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Answer:

The amount of electric current traveling per unit cross-section area

Explanation:

It is denoted in Amperes per square meter. The more the current is in a conductor, the higher the current density. The electric current generates a magnetic field

The block slides 2.37 meters down the ramp.

The force preventing solid surfaces, fluid layers, and material components from sliding past one another is known as friction.

The mass of the block: m = 2 kg.

Height of the ramp: h = 20 meter.

Angle of the ramp: α = 20°

coefficient of kinetic friction: μ = 0.6

Hence, frictional force f= μmg cosα = 0.6 × 2 × 9.8 ×  cos20° N = 10.18 N.

Total work done in sliding a distance l is = mglsinα + fl

= ( 2 × 9.8 × sin20° + 10.18) l

= 16.88 l joule.

But work  done is 40 J.

Hence, the distance slides by the ramp = 40/16.88 meter = 2.37 meters.

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The proportion between the friction force and the normal force that a body travelling on a dry, uneven surface experiences is known as the kinetic friction coefficient (k). A very clever process may be used to determine k with a high degree of accuracy.

We may use the equation for work to determine how far the block travels down the ramp. Which is W = Fd, where W is the amount of work completed, F is the amount of force used, and d is the length of time the force was used.

The equation can be used to determine the force in this situation, which is the force of kinetic friction. The formula for kinetic friction is kinetic friction = uk * N, where N is the normal force and uk is the coefficient of kinetic friction.

The normal force is equal to the weight of the block, which is mg, where m is the mass of the block and g is the acceleration due to gravity.

Substituting these values into the equation for work and rearranging to solve for d, we get:

d = W / (kinetic friction× cos(θ))

= 40 J / [(0.6 × 2 kg * 9.8 m/s^2) * cos(20°)]

= 40 J / [(11.76 N) * cos(20°)]

= 40 J / 10.45 N

= 3.84 m

Therefore, the block slides a distance of approximately 3.84 meters down the ramp.

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The terms velocity and angular momentum are relevant to this query.The The size of angular momentum is "6 J.s".

The velocity of a body or object determines its direction of motion. Speed is a scalar quantity in its most fundamental form. Velocity is essentially a vector quantity. The displacement change rate is the issue.

Velocity is the term for the rate at which a displacement changes. Acceleration is the measure of a change in velocity. Velocity is a vector quantity because it comprises both magnitude and direction. Acceleration is a vector quantity because it is the speed at which velocity varies.

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On June 21, the sun will be at a 90-degree angle as it crosses the Tropic of Cancer.

The Sun's perpendicular rays shine down at 23.5° N latitude on June 21 and 22, as seen by the Sun's noontime position at 90°. (Tropic of Cancer). b. The migration of the Sun's perpendicular rays from 23.5o N latitude to the equator occurs between June and September 21. (0o latitude).

Every region of the Earth experiences 12 hours of daylight and 12 hours of darkness, with the circle of illumination passing through the poles, the Sun's rays striking the equator at a 90-degree angle.

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Answer:

To calculate the amount of work required to accelerate a car from 15.28 m/s to 32.48 m/s, you can use the following formula:

Work = Force * Distance

In this case, the force is the accelerating force on the car, and the distance is the change in velocity of the car. The accelerating force can be calculated using the formula:

Force = Mass * Acceleration

To find the acceleration of the car, you can use the formula:

Acceleration = Change in Velocity / Time

The time it takes for the car to accelerate can be calculated using the formula:

Time = Distance / Velocity

Substituting these formulas into the original equation, we get:

Work = Mass * (Change in Velocity / Time) * (Time)

Plugging in the given values, we get:

Work = 704.15 kg * (32.48 m/s - 15.28 m/s) / (32.48 m/s - 15.28 m/s) * (32.48 m/s - 15.28 m/s / 32.48 m/s)

Simplifying this equation, we get:

Work = 704.15 kg * (17.2 m/s)^2

Work = 704.15 kg * 295.04 m^2/s^2

Work = 207,764.79 kg*m^2/s^2

So the total amount of work required to accelerate the car from 15.28 m/s to 32.48 m/s is 207,764.79 kg*m^2/s^2.

Explanation:

According to the vector study, the upward direction is taken as positive, and the downward direction is taken as negative.

in the same manner, the rightward direction is taken as positive span the leftward direction is taken as negative.

As the object is hot vertically upwards so now the direction of velocity is taken as positive as given in the question.

(Because it is direction is in the direction of the center of the Earth). until the object reaches its maximum height where the speed is zero and then it begins to fall until it hits the ground.

At the maximum height, the velocity is zero.

The acceleration acting on the object is acceleration due to gravity which is always acting downwards so it is taken as negative.

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Answer:

The range of possible real speeds is:

[tex]x\ -\ the\ actual\ speed \\116.4 < x < 123.6[/tex]

Explanation:

If we know that the certainty of a measurement is 3% - we refer that to the measured value - we calculate how much is 3% of 120:

[tex]120 * 3\% = 3.6[/tex]

To calculate the lower limit - we subtract the given value from the measurement value and to calculate the upper limit - we have to add.

The concept of "God" means different things to different people, so it's difficult to provide a definitive answer to this question. Some people believe in a specific deity or deities, while others believe in a more abstract or universal concept of divinity. Still others do not believe in any kind of higher power at all. There is no single piece of evidence that can definitively prove or disprove the existence of God, as people's beliefs about God are often based on faith, personal experiences, and philosophical arguments. Ultimately, the question of whether God exists is a matter of personal belief and interpretation.

Answer:  

To estimate the terminal velocity of the squirrel, we need to consider the forces acting on it: its weight, the force of gravity, and the drag force. The terminal velocity is the velocity at which the sum of these forces is zero, meaning that the squirrel is no longer accelerating.

The weight of the squirrel is given by:

W = m * g

where m is the mass of the squirrel and g is the acceleration due to gravity (9.8 m/s^2).

The force of gravity is given by:

F_g = W

The drag force is given by:

F_d = (1/2) * C * rho * A * v^2

where C is the drag coefficient, rho is the density of air, A is the surface area of the squirrel, and v is its velocity.

The equation for terminal velocity can be written as:

0 = W - F_d

= m * g - (1/2) * C * rho * A * v^2

Solving for v, we get:

v = sqrt((2 * m * g) / (C * rho * A))

Plugging in the values for the squirrel, we get:

v = sqrt((2 * 560 g * 9.8 m/s^2) / (1.28 * 1.225 kg/m^3 * 144 cm^2))

= 15.4 m/s

Therefore, the terminal velocity of the squirrel is approximately 15.4 m/s.

To calculate the velocity of a person hitting the ground, we can use the same formula as above, but with the mass and surface area of the person.

Plugging in the values for the person, we get:

v = sqrt((2 * 56 kg * 9.8 m/s^2) / (1.28 * 1.225 kg/m^3 * 5000 cm^2))

= 51.5 m/s

Therefore, the velocity of the person hitting the ground would be approximately 51.5 m/s, assuming no drag contribution in such a short distance.

The two parts which are along x axis and have some constant value along the y axis i.e. horizontal parts represents a gain in potential energy.

In the heating curve shown in the question, these are gain in potential energy because they have constant temperature referred to the gain.he work done by a force on an object between two points does depend on the path taken by the object between the two points. For the special case of conservative forces, we have seen that the work does not depend on the path.

Therefore, we can define, for conservative forces, an associated potential energy that, for a given object, depends only on its location. In particular, when a conservative force acts on an object as it moves between two points, we define the define the change in potential energy associated with that force as minus the work done by that force between those two points.

Whatever kinetic energy the ball gains is exactly equal to the potential energy that the ball loses. If we define the total mechanical energy of an object as the sum of its kinetic and potential energy, then, in this case, we see that the total mechanical energy of the ball was conserved.

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Potential energy is increased by the two horizontal components that are along the x axis and have some constant value along the y axis.

These are a gain in potential energy in the heating curve depicted in the question since they have constant temperature. The work that a force performs on an object between two points depends on the path that the thing takes there. We have demonstrated that, in the exceptional case of conservative forces, the work is independent of the path.

As a result, we can define a potential energy associated with conservative forces that, for a given item, depends only on its location. In particular, we define the change in potential energy associated with a conservative force as the work done by that force between the two points when it acts on an item as it moves between them.

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The marine chronometer work by calculating the precision timepiece that is brough on a ship and implied in the determination of the ship's coordinate by celestial navigation. The invention of marine chronometer was a revolution in the age of sail.

Why was the marine chronometer important?

The Marine chronometer was important to the ship because of its accuracy in describing their longitude which is the important information to the navigator. Marine chronometer was invented by english man name John Harrison who is work as carpenter and clockmaker in the age of sail in 1761. The invention of marine chronometer is drastically increased the safety and precision are travel by the sea.

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The linear speed of the paddle boat is 15.7 ft/s.

The speed of the paddle boat is calculated by applying the following formula as shown below.

v = ωr

where;

The angular speed of the paddle boat = 15 rev / min

= 15 rev/min   x   2π rad/rev   x   1 min / 60 s

= 1.57 rad/s

The linear speed of the paddle boat is calculated as follows;

v = 1.57 rad/s  x   10 ft

v = 15.7 ft/s

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