After you pick up a spare, your bowling ball rolls without slipping back toward the ball rack with a linear speed of 2.85 m/s. To reach the rack, the ball rolls up a ramp that rises through a vertical distance of 0.53 m. What is the linear speed of the ball when it reaches the top of the ramp?

Answer:

107.52 J

Explanation:

force (f) = 42.8 N

angle of force (θ) = 16.5 °

distance  (d) = 2.62 m

find the work done.

work done = force x distance

resolving the force we have = 42.8 x cos (16.5) = 41.04 N

work done = 41.04 x 2.62 = 107.52 J

Answer:

star A is hottest and star c is coldest

Explanation:

from WEIN'S LAW which relates stellar color to stellar temperature, the visible light output of very hot stars is dominated by blue color while the stars that are cool emit most of their visible light as red .

Star A, the blue star, is the hottest due to its blue color, which is a consequence of its high temperature. Meanwhile, Star C, the red star, is the coldest because red light has a longer wavelength than blue or white light.

The color of a star can give us an idea of its temperature thanks to a concept called black-body radiation. This concept tells us that the hotter a star is, the shorter the wavelength of light it will emit, which in turn defines its color. Blue stars are the hottest, as blue light has a shorter wavelength than red or white light. As for white stars, they are intermediate in temperature, since white light is a combination of many different colors (wavelengths). Finally, red stars are the coldest of the three, because red light has a longer wavelength than blue or white light.

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Answer:

increasing the distance between the objects

decreasing the mass of one of the objects

decreasing the mass of both objects

Explanation:

The complete question would be:

Which changes would result in a decrease in the gravitational force between two objects? Check all that apply.

increasing the distance between the objects

decreasing the distance between the objects

increasing the mass of one of the objects

increasing the mass of both objects

decreasing the mass of one of the objects

decreasing the mass of both objects

---------------------------------------------------------------------------------------

Gravitational force between two objects can be computed using the formula:

[tex]Fg = G\dfrac{Mm}{r^2}[/tex]

Where:

Fg is the gravitational force (Newtons or N)

G is the gravitational constant (6.674⋅10⁻¹¹N(m/kg)²)

M is the mass of one object (Kilograms or Kg)

m is the mass of the other object (Kilograms or Kg)

r is the distance between the two objects (m)

Now notice the relationship between the mass and gravitational force. Their relationship is direct, meaning as the value of one goes up, the other goes up and the reverse holds true. If the mass of one or both of the objects decreases, the gravitational force also decreases.

Now look at the relationship between the distance between the objects and the gravitational force-- they are indirect. This means that as one increases, the other decreases. So if we increase the distance between the objects, the gravitational force between them decreases as well.

Answer:

increasing the distance between the objects

decreasing the mass of one of the objects

decreasing the mass of both objects

Explanation:

Answer: 500metres

Explanation:

Wavelength is defined as the distance between two successive crest and troughs. The relationship between the wavelength (¶), frequency (f) and velocity of the wave(v) is given by v= f¶

Therefore wavelength ¶ = v/f

Given the velocity = 3×10^8m/s

frequency = 600kHz = 600,000Hz

Wavelength =3×10^8/600,000

Wavelength = 500meters

Their wavelength in meters is 500meters

Answer:

Explanation:

a) Deceleration due to gravity along the inclined plane is given by:

  g*Sin(∅)= 9.8*Sin(37)=5.9 m/s^2.

Since acceleration is constant, we can use equation of motion along the plane. [tex]V^{2} = U^{2} +2as[/tex]

where V: final velocity, U:initial Velocity, a:Acceleration and s:distance

0=[tex]4.4^{2} + 2*-5.9*s[/tex] (-ve because it is against gravity)

It will go 1.64 meters up the plane

b) Force due to friction = Coeff. of friction * Normal Force

Normal Force = mg*Cos(∅) = 9.8*3.8*Cos(37) = 29.75;

Coeff of friction = 0.47;

Force due to friction = 0.47*29.75 = 13.98 N

Force due to gravity : 3.8*5.9 = 22.42;

Total force after adding friction = 22.42 + 13.98 = 36.4 N

New Acceleration = 36.4/3.8 = 9.58;

Applying the equation of motion used above with acceleration = 9.58;

It will go 1.01 meters up the plane.

c) Thermal energy due to friction = Max potential energy without friction - max potential energy after friction.

Potential energy w.o friction(m*g*h) = 3.9 * 9.8 * 1.64*Sin(37) = 37.72 Joules

Potential energy with friction(m*g*h)= 3.9 * 9.8 * 1.01*Sin(37) = 23.23 Joules

Energy due to friction = 37.72 - 23.23 = 14.49 Joules

Answer:

0.83999 m

0.20999 m

Explanation:

g = Acceleration due to gravity = 9.81 m/s² = a

s = 189 cm

[tex]s=ut+\frac{1}{2}at^2\\\Rightarrow 1.89=0t+\frac{1}{2}\times 9.81\times t^2\\\Rightarrow t=\sqrt{\frac{1.89\times 2}{9.81}}\\\Rightarrow t=0.62074\ s[/tex]

When the time intervals are equal, if four drops are falling then we have 3 time intervals.

So, the time interval is

[tex]t'=\dfrac{t}{3}\\\Rightarrow t'=\dfrac{0.62074}{3}\\\Rightarrow t'=0.206913\ s[/tex]

For second drop time is given by

[tex]t''=2t'\\\Rightarrow t''=2\times 0.2069133\\\Rightarrow t''=0.4138266\ s[/tex]

Distance from second drop

[tex]s=ut+\dfrac{1}{2}at^2\\\Rightarrow y''=ut''+\dfrac{1}{2}at''^2\\\Rightarrow s=0\times t+\dfrac{1}{2}\times 9.81\times 0.4138266^2\\\Rightarrow s=0.839993\ m[/tex]

Distance from second drop is 0.83999 m

Distance from third drop

[tex]s=ut+\dfrac{1}{2}at^2\\\Rightarrow y''=ut'+\dfrac{1}{2}at'^2\\\Rightarrow s=0\times t+\dfrac{1}{2}\times 9.81\times 0.206913^2\\\Rightarrow s=0.20999\ m[/tex]

Distance from third drop is 0.20999 m

Answer:

Option A and B

Explanation:

In the parallel connection, the capacitors that are connected in parallel have the same potential difference across each capacitor as the battery. Therefore, statement A is correct.

Charge (Q), capacitance (C) and voltage across capacitor (V) is related with each other as follows:

Q = C ×V

As capacitance is not same for all the capacitors, therefore each capacitor carries different charge. Therefore, statement C is incorrect.

As potential difference across each capacitor is same, therefore, capacitor with the largest capacitance carry the most charge. Therefore, statement B is correct.

Therefore, statements A and B are correct.

Answer:

Option A and B is correct

Explanation:

When two or more capacitors are connected in parallel, the equivalent capacitance of the circuit is the sum of capacitance of all the capacitors.

C = C₁ + C₂+ C₃+....

The potential difference across each capacitor is equal. Thus, option A is correct.

The total charge is the sum of the charge on stored in each capacitor.

Q = Q₁ + Q₂+ Q₃+....

Q = CV

Since the voltage is same across each capacitor, the capacitor which has largest capacitance has the most charge. Thus, option B is correct.

Answer:

Tissues that are damaged or injured.

Explanation:

Dystrophic calcification involves the deposition of calcium in soft tissues despite no disturbance in the calcium metabolism, and this is often seen at damaged tissues.

Examples of areas in the body where dystrophic calcification can occur include atherosclerotic plaques and damaged heart valves.

Answer:

(a) lowest frequency=577 Hz

(b) highest frequency=608 Hz

Explanation:

Given data

f(whistle frequency)=592 Hz

ω(angular speed)=13.8 rad/s

r(radius)=64.7 cm=0.647 m

To find

(a) Lowest frequency

(b) highest frequency

Solution

From Doppler effect

f=f×{(v±vd)/(v±vs)}

Where

v is speed of sound

Vd is speed detector relative to the medium(vd=0)

Vs is the speed of the source

Since

v=rω

For (a) lowest frequency

[tex]f^{i}=f(\frac{v}{v+rw} )\\f^{i}=(592Hz)(\frac{343m/s}{343m/s+(0.647m)(13.8rad/s)} )\\f^{i}=577Hz[/tex]

For (b) highest frequency

[tex]f^{i}=f(\frac{v}{v-rw} )\\f^{i}=(592Hz)(\frac{343m/s}{343m/s-(0.647m)(13.8rad/s)} )\\f^{i}=608Hz[/tex]

Answer:

The change in temperature of 576.9°C will produce an elongation of 9 inches per feet in steel.

Explanation:

The formula for linear expansion of a material is:

ΔL = αLΔT

where, ΔL = change in length

             L = Original length

           ΔT = Change in temperature

             α = coefficient of linear expansion

For steel, α = 13 x 10^-6 /°C

                L = 100 ft

                ΔL = (9 in)(1 ft/12 in) = 0.75 ft

Therefore,

0.75 ft = (13 x 10^-6 /°C)(100 ft)ΔT

ΔT = 576.9°C

Explanation:

Johannes Kepler, working with the data carefully collected by Tycho Brahe without the help of a telescope, especially those related to the retrograde motion of Mars, realized that the motion of the planets could not be explained by his model of perfect polyhedra. Coming to the conclusion that all the planets move in elliptical orbits, with the Sun in one of the foci.

Explanation:

Consider the horizontal motion of ball

We have equation of motion s = ut + 0.5 at²

        Initial velocity, u = 44.7 m/s

        Acceleration, a = 0 m/s²  

        Displacement, s = 16.1 m      

     Substituting

                      s = ut + 0.5 at²

                      16.1 = 44.7 x t + 0.5 x 0 x t²

                      t = 0.36 s

      Time taken to travel 16.1 m is 0.36  seconds

Now we need to find how much ball travel vertically during this 0.36 seconds.

We have equation of motion s = ut + 0.5 at²

        Initial velocity, u = 0 m/s

        Acceleration, a = 9.81 m/s²  

        Time, t = 0.36 s      

     Substituting

                      s = ut + 0.5 at²

                      s = 0 x 0.36 + 0.5 x 9.81 x 0.36²

                      s = 0.64 m

     The baseball drops by 0.64 meter.

Answer:

10.28571 hp

Explanation:

[tex]W_{shaft}[/tex] = Shaft output power = 104 hp

[tex]\eta[/tex] = Average efficiency = 91%

Electric work done rate is given by

[tex]W_{el}=\dfrac{W_{shaft}}{\eta}[/tex]

The rate of heat supply is given by

[tex]Q=W_{el}-W_{shaft}\\\Rightarrow Q=W_{shaft}(\dfrac{1}{\eta}-1)\\\Rightarrow Q=104(\dfrac{1}{0.91}-1)\\\Rightarrow Q=10.28571\ hp[/tex]

The heat supply by the motor to the engine compartment at full load is 10.28571 hp

Answer:

Iaas

Explanation:

Infrastructure as a service (IaaS) is an online service that supplies high-level APIs that are used to derefer various low-level information such as physical computing resources, location, data partitioning, scaling, protection, backup etc. of the underlying network infrastructure

Cloud computing is a cloud service that uses software to emulate hardware capabilities, such as increasing or decreasing bandwidth or storage to meet changing needs.

The cloud service that uses software to emulate hardware capabilities, such as increasing or decreasing bandwidth or storage to meet changing needs, is cloud computing.

In cloud computing, virtualization technology is used to create virtual instances of the hardware resources, allowing them to be dynamically allocated or scaled up/down as needed.

For example, Amazon Web Services (AWS) offers a cloud service called  (Elastic Compute Cloud) that allows users to create virtual servers with customizable specifications, such as CPU, memory, and storage.

Users can easily increase or decrease these resources based on their requirements, without the need for physical hardware changes.

Other cloud services like Microsoft Azure, G o o g l e Cloud Platform, and IBM Cloud also provide similar capabilities, allowing organizations to optimize their resource allocation and cost efficiency.

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Answer:

A wind turbine turns wind energy into electricity using the aerodynamic force from the rotor blades.

Explanation:

Answer:

The order is Star 3 < Star 2 < Star 1 < Star 4

Explanation:

Lets name the stars with their written order.

Star 1: 2.7 x 10^18 km3

Star 2: 6.9 x 10^12 km3

Star 3: 2.2 x 10^12 km3

Star 4: 4.9 x 10^21 km3

Star with lowest power of 10 has the least volume. Therefore, star 2 and star 3 would be the stars with least volume. Star 2's coefficient is better than Star 3. Thus, the order will be Star 3 < Star 2 < Star 1 < Star 4.

Answer:Area cleaned by the 7-in wiper blade=22

72sq in

Explanation: In a windshield the wiper moves in a semi circle. The angle in a semi circle is 180°

Let A= Total area

A= 2×9×3.1461×(93/180)

A=29.22squareinch

Let a be area cleaned by the 7-inch wiper

a=29.22 - 2(9-7)×3.1461×(93/180)

a=29.22 - 6.502

a= 22.72sqin

Answer:

The area of the portion of the windshield cleaned by the 7-in wiper blade is 62.49 in²

Explanation:

Given

Length of blade = 9 inches

Angle of rotation = 93°

We're to calculate the area of the portion of the windshield cleaned by the 7​-in wiper​ blade?

We'll solve this by using area of a sector.

Area of a sector = ½r²θ

where θ is in radians.

So, angle of rotation (93°) must first be converted to radians

Converting 93º to radians, we get 31π/60

The area of the region swept out by the wiper blade = (area of the sector where r = 9 and

θ = 31π/60) - (area of the sector where r = (9-7) and θ = 31π/60).

We're making use of 9-7 because that region is outside the boundary of the 7in blade

So Area = ½*9²*31π/60 - ½*2²*31π/60

Area = ½*31π/60(9²-7²)

Area = 31π/120 * (81 - 49)

Area = 31π/120 * 32

Area = 992π/120

Area = 62.49151386765697 in²

Area ≈ 62.49 in²

Hence, the area of the portion of the windshield cleaned by the 7-in wiper blade is 62.49 in²

Answer:

Highly structured or planned threat

Explanation:

This type of threat is an highly structured threat that is been planned using every available tools and machineries. The attack of this type consist of three phases, the preparation phase; where all the information and resources needed is been planned and source for. The execution phase; the attackers plane how to carry out the action, the techniques and technology needed for the success of the operation is carried out and tested. The post execution phase; the attackers planned there escape from any trouble that may arise and how not to leave any spot that will make them to be identified.

This type of threat requires to put the security outfit or the entire agency on red alert to ensure effective engagement before the attackers execute their actions.

Answer:

The speed of the boxes are 1 m/s.

Explanation:

Given that,

Mass of box = 1 kg

Mass of another box = 2 kg

Suppose 1 kg box moves with 3 m/s speed.

We need to calculate the speed of the boxes

Using formula of conservation of momentum

[tex]m_{1}u_{1}+m_{2}u_{2}=(m_{1}+m_{2})v[/tex]

Where, u = initial velocity

v = final velocity

Put the value into the formula

[tex]1\times3+2\times0=(1+2)v[/tex]

[tex]v=\dfrac{3}{3}[/tex]

[tex]v=1\ m/s[/tex]

Hence, The speed of the boxes are 1 m/s.

After the collision, the speed of the two boxes will reduce due to lost in kinetic energy associated with inelastic collision.

The given parameters;

Apply the principle of conservation of linear momentum to determine the final velocity of the two boxes after collision.

m₁u₁  +  m₂u₂  = v(m₁  +  m₂)

1(u₁) + 2u₂ = v(3)

u₁ + 2u₂ = 3v

Where;

u₁ and u₂ are the initial velocity of the first and second box respectively

v is the final velocity of the two boxes

Thus, we can conclude that after the collision, the speed of the two boxes will reduce due to lost in kinetic energy associated with inelastic collision.

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Answer:

the maximum angular speed (in radians per second) of a Blu-ray disc as it rotates is 57.6 m/s

Explanation:

Given information:

diameter of the disc, d  = 11 cm, r = 5.5 cm = 0.055 m

angular speed ω = 10000 rev/min = (10000 rev/min)(2π rad/rev)(1/60 min/s)

                             = 1000π/3 rad/s

to calculate the maximum angular speed we can use the following formula

ω = v/r

v = ωr

  = (1000π/3)(0.055)

  = 57.6 m/s

Answer:

The answer is 3213.6 grams.

Explanation:

In meters the room dimensions are 3.05-3.2-6.86.

Total volume of the room is:

[tex]3.05*3.2*6.86=66.95[/tex]

66.95 m3.

The density of carbon monoxide is 48 g/m3. Then total grams is present in a room measuring:

[tex]66.95*48=3213.6[/tex]

Answer:

option B

Explanation:

given,

Force = F

angle of inclination, = θ

distance = d

coefficient of friction = μ

work done =frictional Force x displacement

W = f. s

friction force on the incline will be equal to horizontal of force component. so,

f = - F cos θ

Work done will be equal to

W = - F d cos θ

Hence, the correct answer is option B

Answer:

7.92 s

Explanation:

Power: This can be defined as the rate at which energy is used. The S.I unit of

Watt (W).

Mathematically power can be represented as,

P = E/t

Pt = E............................. Equation 1

Where P = power of the engine, t = time, E = Energy.

But,

E = 1/2m(Δv)²................. Equation 2

Where m = mass of the automobile, Δv = change in velocity of the car = final velocity - initial velocity.

Substitute the value of E in equation 2 into equation 1

Pt = 1/2m(Δv)²................................. Equation 3

making t the subject of the equation,

t = 1/2m(Δv)²/P ........................ Equation 4

Given: m = 1540 kg, P = 75 kW = 75000 W, Δv = 100-0 = 100 km/h (initial velocity of the car = 0 km/h)

100(1000/3600) m/s = 27.78 m/s

Substitute into equation 4

t = 1/2(1540)(27.78)²/75000

t = 594230.87/75000

t = 7.92 second.

Thus The time required to accelerate the car = 7.92 seconds.

It is not realistic period the time period is too short.

The car takes approximately 7.8 seconds to accelerate from rest to a speed of 100 km/h, given the power rating and mass that was provided in the question.

The process to solve this physics problem involves steps in calculating the work done on the car and then the time required for this work at the given power. To begin with, we can translate the speed of 100 km/h to m/s, which would be 27.8 m/s. Afterward, using the kinetic energy formula (K.E = 1/2 * m * v²), the work done on the car to achieve this speed can be calculated, which is 585840 Joules.

The next step is to compute the time. We know that Power = Work Done / Time, where power has been provided (75 kW = 75000 Watts) and we just computed the work done, so we can rearrange this equation to solve for time. This gives a resulting time of approximately 7.8 seconds. This may seem a short amount of time, but it's plausible for a high-powered sports car to reach 100 km/h in around this time frame.

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Final answer:

The magnitude of the average force acting on the 555 g ball during the collision is approximately 347.39 N. This is calculated using the impulse-momentum theorem, as the product of the average force and the contact time equals the change in momentum.

Explanation:

The student's question pertains to the concept of impulse and the average force exerted during a collision, which are foundational topics in dynamics, a branch of Physics. To find the magnitude of the average force acting on the ball during the collision, we can use the impulse-momentum theorem. The impulse exerted on an object is equal to the change in momentum of the object, and it can also be calculated as the average force times the time period of the force's application.

The formula for impulse (I) is given by:
I = F_avg × Δt

Where F_avg is the average force, and Δt is the time interval for which the force is exerted.

The change in momentum (Δp) is given by:
Δp = m(v_f - v_i)

Here, m is the mass of the object, v_f is the final velocity, and v_i is the initial velocity. For the ball in question:

First, we calculate the change in momentum, Δp:
Δp = 0.555 kg × (-12.1 m/s - 14.9 m/s) = 0.555 kg × (-27 m/s) = -15.285 kg·m/s

Because impulse equals change in momentum, we have:
F_avg × Δt = Δp
F_avg = Δp / Δt
F_avg = -15.285 kg·m/s / 0.044 s
F_avg ≈ -347.39 N

The negative sign indicates that the force's direction is opposite to the initial direction of the ball. However, the question asks for the magnitude, so we take the absolute value: |F_avg| ≈ 347.39 N.

Answer:

E. The force on A is exactly equal to the force on B.

Explanation:

The force between two charges is given by

[tex]F=\dfrac{kq_1q_2}{r^2}[/tex]

where

[tex]q_1[/tex] = Charge on particle 1

[tex]q_2[/tex] = Charge on particle 2

r = Distance between the charges

k = Coulomb constant = [tex]8.99\times 10^{9}\ Nm^2/C^2[/tex]

[tex]F=\dfrac{8.99\times 10^9\times 10\times 10^{-9}\times 1\times 10^{-9}}{(25\times 10^{-2})^2}\\\Rightarrow F=0.0000014384\ N[/tex]

This force will be exerted on both the charges equally.

So, The force on A is exactly equal to the force on B

Answer:hjvuihi

Explanation:lk

Answer:

the correct answer is A Sherp-edged shadows

Explanation:

The wave model describes the path of light as the propagation of a cosenoidal wave, in this case when two beams of light interact, they do so through the supervision of the cosines of each one.

In the lightning model, the light wave characteristics are not taken into account, this model is used for the so-called geometric optics, which explains many phenomena, image formation, reflection phenomena and shadow formation defined in the corners , since in this model the light is nine rectilinear from one point to another.

With this explanation we see that the correct answer is to

Final answer:

Sharp-edged shadows can be understood without the wave model of light, as they can be explained by the ray model. Double-slit interference, thin-film interference, and single-slit diffraction require the wave model to account for light's wave properties, such as diffraction and interference.

Explanation:

The phenomena that can be understood without appealing to the wave model of light is sharp-edged shadows. This is because sharp-edged shadows can be explained using the ray model of light, which treats light as straight lines that travel from a source and create shadows when they are obstructed by an object. The other phenomena listed, including double-slit interference, thin-film interference, and single-slit diffraction, require an understanding of the wave properties of light, such as diffraction and interference, to be properly understood.

According to Huygens's principle, diffraction is the bending of waves around the edges of an object or through an opening. Interference occurs when waves superimpose and either constructively or destructively interfere with each other, giving rise to the various patterns seen in these phenomena. The ray model of light is insufficient to explain these effects because it does not account for the wave-like behaviors of light, such as bending and superposition of waves.

The recoil velocity of the canoe is calculated using conservation of momentum. The horizontal component of the stone's velocity is first determined, and the stone's momentum is then used to find the canoe's recoil. The direction of recoil is opposite to the stone's horizontal velocity component.

The recoil velocity of a stationary object after projecting an object can be calculated using the principle of conservation of momentum.

Since the person and the canoe are initially motionless, the total momentum before the stone is thrown must be equal to the total momentum afterwards.

Step-by-Step Explanation

The direction of the canoe's recoil will be opposite to the stone's horizontal component of velocity since momentum is conserved and no external horizontal forces are acting on the system.

Answer:

(a)  13.795 m/s.

(b) -3140.28 N.

Explanation:

(a) Using newton's  equation of motion,

v² = u² + 2gs.......................... Equation 1

Where v = final velocity, u = initial velocity, s = height of the tower, g = acceleration due to gravity.

Given: s = 9.7 m, u = 0 m/s ( jump from a height), g = 9.81 m/s².

Substitute into equation 1

v² = 0² + 2×9.81×9.7

v² = 190.314

v = √(190.314)

v = 13.795 m/s.

Hence the velocity of the driver when he hits the water = 13.795 m/s.

(b)

F = ma.................... Equation 2

Where F = force exerted on the diver, m = mass of the diver, a = acceleration of the diver below the water surface.

Also using

v² = u² + 2as ............ Equation 3

Note: At the point when the diver enters the water, u = 13.795 m/s, and at the point when the diver comes to a complete stop, v = 0 m/s

Given: s = 2.0 m, u = 13.795 m/s, v = 0 m/s

Substitute into equation 3

0² = 13.795²+2(2a)

0 = 190.30203 + 4a

-4a = 190.30203

a = 190.30203/-4

a = -47.58 m/s²

Also given: m = 66 kg,

Substitute into equation 3

F = (-47.58)(66)

F = -3140.28

Note: The Force is negative because it act against the motion of the diver.

Hence the net force exerted on the diver while in the water = -3140.28 N.

Answer: The dimensions are length 600metres and breadth= 300 metres

Explanation:

Area of rectangle =l × b

L b =180,000

b = 180,000/L ....... equation 1

Perimeter of rectangle =2L + b

P = 2(180,000)/L + L

P= 360,000/L +L

dp/dL= -360,000/L^2 +1

L^2= 360,000

L= Squareroot of 360,000

L=600m

b= 180,000/600

b= 300m

The required dimensions will be "600 by 300". A complete solution is below.

According to the question,

No fencing along river so,

By taking the derivative, we get

→ [tex]f'(x) = -\frac{180000}{y^2+2} =0[/tex]

                  [tex]\frac{180000}{y^2} = 2[/tex]

                       [tex]y^2 = \frac{180000}{2}[/tex]

                       [tex]y^2 = 90000[/tex]

                        [tex]y = \sqrt{90000}[/tex]

                           [tex]= 300[/tex]

and,

→ [tex]x = \frac{180000}{300}[/tex]

     [tex]= 600[/tex]

Thus the above answer is right.    

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