A 6 cm object is 8 cm from a convex lens that has a focal length of 2.7 cm. The image is 4 cm from the lens. The height of the image is ? cm.

Answer:

Yeah

Explanation:

Thermoproteota is a prokaryote.

Prokaryotes are unicellular

Answer: B.

Explanation:

An isotope is a variation of the same element with a different number of neutrons in its nucleus. The only thing that changes is the top component, which is the total number of protons and neutrons. The bottom component remains the same (the number of protons).

The answer is "the electric potential at point B is 3750 V".

To calculate electric potential (V) at a point in an electric field due to a point charge:

V = k Q / r

Where, k is Coulomb's constant (k = 9 x [tex]10^9[/tex] N [tex]m^2[/tex] / [tex]C^2[/tex]).

            Q is the charge in Coulombs.

            r is the distance between the point charge and the point where             potential is being calculated, in meters.

Using the values given, calculate the electric potential at point A:

[tex]V_A[/tex] = (9 x [tex]10^9[/tex] N [tex]m^2[/tex] / [tex]C^2[/tex]) x (2.5 x [tex]10^{-6 }[/tex] C) / (0.03 m)

[tex]V_A[/tex]= 7500 V

[tex]V_B[/tex] = (9 x [tex]10^9[/tex] N [tex]m^2[/tex] / [tex]C^2[/tex]) x (2.5 x [tex]10^{-6 }[/tex] C) / (0.06 m)

[tex]V_B[/tex] = 3750 V

So, the electric potential at point B is 3750 V.

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The exploded star is called a black hole.

The time horizon of the black hole is an area of spacetime where gravitational pull is so intense that nothing, not even light or other electromagnetic waves, have the energy to pass through it.

It is believed that the first black holes appeared shortly after the big bang, in the beginning of the cosmos. When the core of an extremely massive star is collapsed on itself, stellar black holes are created.

A supernova, also known as an exploding star, is also brought on by this collapse and sends a portion of the star into space.

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The electrical change of oxygen ion is -2

An ion is an atom or molecule that has an unequal number of protons and electrons, which results in a net electrical charge. When an oxygen atom gains two electrons, it becomes negatively charged because electrons have a negative charge. This is because the number of negatively charged electrons now exceeds the number of positively charged protons in the nucleus of the atom. Therefore, the electrical charge of the oxygen ion is -2.

The electrical charge of an ion is represented by the symbol "n", which stands for the number of electrons gained or lost by the atom. In this case, the oxygen atom has gained two electrons, so n = -2. This is represented by the formula: O^2-.

In summary, when an oxygen atom gains two electrons, it becomes negatively charged and forms an oxygen ion. The electrical charge of the oxygen ion is represented by the symbol "n" and is equal to -2, which is reflected in the formula O^2-. This means that the oxygen ion has a net charge of -2, which reflects the excess of negatively charged electrons in the ion.

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The easiest way to do 20 Newton meters of work would be to apply a force of 20 N over a distance of 1 meter. Option C is the correct answer.

The work done on an object is calculated by multiplying the force applied to the object by the distance over which it is applied. Thus, to do 20 Newton meters of work, any combination of force and distance that gives a product of 20 Nm is sufficient.

Option A applies a force of 2 N over a distance of 10 m, resulting in a work of (2 N) x (10 m) = 20 Nm.

Option B applies a force of 4 N over the same distance of 10 m, resulting in a work of (4 N) x (10 m) = 40 Nm, which is more than the required amount of work.

Option C applies a force of 20 N over a distance of 1 m, resulting in a work of (20 N) x (1 m) = 20 Nm, which is the required amount of work. Hence, the answer.

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The spring is compressed by 0.122 m before the block comes to rest.

When the block encounters the spring, it will begin to compress the spring due to the force exerted by the spring on the block. This force will cause the block to decelerate and eventually come to a stop when all its kinetic energy has been converted into potential energy stored in the compressed spring.

We can use the conservation of energy principle to determine the compression distance of the spring.

The initial kinetic energy of the block is given by:

[tex]KE_i = (1/2) * m * v^2 = (1/2) * 0.980 kg * (1.32 m/s)^2 = 0.852 J[/tex]

This energy will be converted into potential energy stored in the compressed spring when the block comes to a stop. The potential energy stored in the spring is given by:

[tex]PE_s = (1/2) * k * x^2[/tex]

where k is the force constant of the spring and x is the compression distance of the spring.

Setting the initial kinetic energy equal to the potential energy stored in the spring, we have:

[tex]KE_i = PE_s[/tex]

0.852 J = (1/2) * 245 N/m * x^2

Solving for x, we get:

[tex]x = \sqrt{( (2 * 0.852 J) / (245 N/m) ) } = 0.122 m[/tex]

Therefore, the spring is compressed by 0.122 m before the block comes to rest.

It's important to note that this calculation assumes that the mass of the spring is negligible compared to the mass of the block, and that the spring is ideal with no damping or other losses of energy. In reality, there may be some losses due to friction or other factors, which would result in a smaller compression distance.

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The most likely situation to occur if the climate changed and caused glaciers and ice caps to melt is:
D. Land masses would become smaller.

When glaciers and ice caps melt due to climate change, the water released from the melting ice flows into rivers, lakes, and eventually the oceans. This increase in water volume contributes to a rise in sea levels. As sea levels rise, low-lying coastal areas and islands may become submerged, leading to a reduction in the size of land masses.
In addition, the melting of glaciers and ice caps can cause other changes in the environment. While it might seem like the added freshwater could make the ocean water less salty, the influx of cold freshwater can actually disrupt ocean currents, which are crucial for regulating Earth's climate. As a result, certain regions may experience altered weather patterns and temperatures. However, these changes are complex and interconnected, making it difficult to predict specific outcomes, such as air temperature decrease or increased land fertility, solely based on melting ice caps and glaciers.
Overall, the most direct and likely impact of melting glaciers and ice caps on a global scale would be the reduction in land mass size due to rising sea levels.

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Answer:

Image distance: object distance + focal length or, 8.0 + 3.0 so 11.0cm

Object distance: image distance - focal length or 11.0 - 3.0 so 8.0cm

To find the electric field components E(x) and E(y) at any point, we need to take the negative gradient of the potential function V.

Let's first find the partial derivative of potential function V with respect to x:

∂V/∂x = a(3x² - y²)/(x² + y²)^(5/2) - b x/(x² + y²)^(3/2)

Similarly, the partial derivative of V with respect to y is:

∂V/∂y = -2a xy/(x² + y²)^(5/2) - b y/(x² + y²)^(3/2)

Now, we can find the components of the electric field:

Ex = -∂V/∂x = -a(3x² - y²)/(x² + y²)^(5/2) + b x/(x² + y²)^(3/2)

Ey = -∂V/∂y = 2a xy/(x² + y²)^(5/2) + b y/(x² + y²)^(3/2)

Therefore, the  components of the electric field at any point (x,y) are:

Ex = -a(3x² - y²)/(x² + y²)^(5/2) + b x/(x² + y²)^(3/2)

Ey = 2a xy/(x² + y²)^(5/2) + b y/(x² + y²)^(3/2)

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The magnitude of the charge on each plate of the capacitor is 12 ×10⁻⁶c

The capacity of the capacitor = 0.75F

Voltage = 16V

F = 0.75×10⁻⁶

A two-terminal electrical device known as a capacitor is capable of storing energy in the form of an electric charge. It is made up of two electrical wires that are spaced apart by a certain amount. A vacuum may be used to fill the space between the conductors.

Using the formula to determine the charge -

Q = CV

Where,

Q = Charge on each plate of the capacitor

C = Capacity of the capacitor

V = The potential difference across plates of the capacitor

Substituting the values -

Q = 0.75 × 10⁻⁶ x 16

Q = 12 x 10⁻⁶

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a) The current through R₂, R₃ and R₄ is 8/3 mA, 4/3 mA, and 40 mA respectively

The resistor with resistance R₄ is connected in series with the resistor R₁, thus the current through them is the same and 40 mA.

The parallel combination of R₂ and R₃ is connected in series with R₁ thus the current through the parallel combination is 40mA

Resistance in parallel = 5 * 10 / 5 + 10 = 10/3

Current = 40 mA

Voltage = IR according to Ohm's Law

V = 10/3 * 40

= 40/3 mV

Since voltage drop is equal in parallel combination,

40/3 = I * 10

I = 4/3 mA (R₃)

40/3 = I * 5

I = 8/3 mA (R₂)

b) The potential difference between A and B is 11.83 V

[tex]V_{AB[/tex] = 1.5 - iR

= 1.5 - 10/3 * 40

= 1.5 - 40/3

= 1.5 - 13.33

= 11.83 V

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The emf induced in the toroid when the current decreases from 2.5 A to 1.1 A in a time of 0.15 s is 220 V.

The emf induced in a toroid can be given by the formula:

emf = -N (dΦ/dt)

where N = number of turns in the toroid and dΦ/dt = rate of change of the magnetic flux through the toroid.

To find the magnetic flux through the toroid, use the formula:

Φ = μ0 N I A / (2πr)

where μ0 = permeability of free space, I = current in the toroid, A = cross-sectional area of the toroid, and r = radius of the toroid.

Substituting the given values:

Φ = (4π x 10⁻⁷ T m/A) x (3143 turns/m) x (2.5 A) x (1.4 x 10⁻⁶ m²) / (2π x 0.073 m) = 0.0105 Wb

The rate of change of magnetic flux can be found by taking the derivative of the magnetic flux with respect to time:

dΦ/dt = -ΔΦ / Δt = -(0.0105 Wb) / (0.15 s) = -0.070 T/s

Finally, substitute the values into the formula for emf:

emf = -N (dΦ/dt) = -(3143 turns/m) x (-0.070 T/s) = 220 V

Therefore, the emf induced in the toroid when the current decreases from 2.5 A to 1.1 A in a time of 0.15 s is 220 V.

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A- The energy consumption of each appliance in kilowatt-hours for the month. is 14.4 kWh

B- The total energy consumption of all appliances in kilowatt-hours for the month. is 466.8 kWh
C-The cost of electricity for the month:

Cost of electricity = 466.8 kWh * $0.12/kWh = $56.02

1. The energy consumption of each appliance in kilowatt-hours for the month:

- Refrigerator: (120 W * 0.9) / 1000 * 10 hours/day * 30 days = 32.4 kWh

- Electric stove: (2000 W * 0.7) / 1000 * 10 hours/day * 30 days = 420 kWh

- Microwave oven: (800 W * 0.6) / 1000 * 10 hours/day * 30 days = 14.4 kWh

2. The total energy consumption of all appliances in kilowatt-hours for the month:

Total energy consumption = 32.4 kWh + 420 kWh + 14.4 kWh = 466.8 kWh

3. The cost of electricity for the month:

Cost of electricity = 466.8 kWh * $0.12/kWh = $56.02

Therefore, the total energy consumption of all appliances for the month is 466.8 kilowatt-hours, and the cost of electricity for the month is $56.02.

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NOTE the complete question is

A home owner uses the following kitchen appliances for 10 hours each day for a month of 30 days:

- Refrigerator, which has a power rating of 120 watts and an efficiency of 90%

- Electric stove, which has a power rating of 2000 watts and an efficiency of 70%

- Microwave oven, which has a power rating of 800 watts and an efficiency of 60%

Assuming that the cost of electricity is $0.12 per kilowatt-hour, calculate the following:

1. The energy consumption of each appliance in kilowatt-hours for the month.

2. The total energy consumption of all appliances in kilowatt-hours for the month.

3. The cost of electricity for the month.

Note: To calculate the energy consumption of an appliance in kilowatt-hours, multiply its power rating in kilowatts by the number of hours it is used per day and the number of days in the month. To calculate the total energy consumption of all appliances, sum up the energy consumption of each appliance. To calculate the cost of electricity, multiply the total energy consumption in kilowatt-hours by the cost per kilowatt-hour.

Answer: 63.6 degrees Celsius

Explanation:

Use the ideal gas law: PV = nRT (P is pressure, V is volume, n is number of moles, R is universal gas constant, T is temperature)

Rearrange the equation to isolate T: T = PV/nR

0.082 kg = 82 g

82/28 = 2.929 mol

Convert atm to Pa (pascals): 2.89*101325 = 292829.25 Pa

Now R can be used because we have the appropriate units.

T = PV/nR = (292829.25*0.028)/(2.929*8.314) = 336.749 K (Kelvin)

Convert K to Celsius: 336.749 - 273.15 = 63.6 degrees Celsius

Answer:

d

Explanation:

reversing the current, reverses the poles of the electromagnet....this keeps the rotor spinning in the stationary mag field

Humans detect infrared radiation released by things using a variety of senses. The ultimate response is that people recognise it by feeling warmth on their skin, having sharper vision, seeing light radiated by the item, and having goosebumps.

1. Skin detects warmth: Objects that produce infrared radiation also emit heat. The temperature sensors in the skin sense this heat energy, allowing people to experience warmth.

2. Improved vision: Infrared radiation may pass through some things like fog or smoke. Because infrared radiation bounces off things and reaches the eyeballs, people can see more clearly in low-light circumstances.

3. Light emitted by the object: When subjected to infrared radiation, certain items emit visible light. Certain types of security cameras, for example, detect movement using infrared radiation and can generate visible light as a result.

4. Goosebumps: Goosebumps are a natural reaction to temperature fluctuations or emotional stimulation.

When people are chilly or terrified, the muscles in their skin contract, causing the hair follicles to rise up and provide a "goosebump" sensation.

This reaction can also occur when the skin senses infrared light in order to regulate body temperature.

Overall, these sensory reactions enable people to perceive and respond to infrared radiation released by objects in their surroundings.

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The work done in pushing the sled 15 meters at a constant velocity with a frictional force of 50 N is 1500 J.

a. The net force acting on the sled is zero since it is moving at a constant velocity. As a result, the net force does no work.

b. The pace at which work is completed is defined as power. Given that the work done in moving the sled 15 meters is 1500 J, we can calculate the time taken to move the sled using the formula:

Power = Work ÷ Time

Substituting the values, we get:

5000 W = 1500 J ÷ Time

Time = 1500 J ÷ 5000 W

Time = 0.3 seconds

This time is unrealistically short for a human to push a 100 kg sled 15 meters at a constant velocity, even with a frictional force of 50 N. Therefore, this scenario is not realistic.

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Hypothesis, If the mass of the cylinder increases, then the temperature of the water will also increase because an increase in mass leads to greater potential energy, which is converted to thermal energy in the system.

According to the principle of conservation of energy, energy cannot be created or destroyed but can be transformed from one form to another. In this case, potential energy from the mass of the cylinder can be converted into thermal energy in the system. When the cylinder is lifted and submerged in the water, it possesses gravitational potential energy due to its elevated position.

As the cylinder is released and descends into the water, this potential energy is converted into kinetic energy, causing the water molecules to move and collide with higher energy. These collisions generate heat and increase the overall temperature of the water. By increasing the mass of the cylinder, more potential energy is stored.

As a result, there is a greater amount of energy available to be converted into thermal energy when the cylinder is released into the water. Thus, the temperature of the water is expected to increase as the mass of the cylinder increases.

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Answer:

Therefore, the period of vibration for a wave with a wavelength of 0.5 m moving at a speed of 6.0 m/s is approximately 0.0833 seconds.

Explanation:

To find the period of vibration, we can use the formula:

period = wavelength / speed

Given:

Wavelength (λ) = 0.5 m

Speed (v) = 6.0 m/s

Substituting the values into the formula:

period = 0.5 m / 6.0 m/s

Calculating the value:

period ≈ 0.0833 seconds

The volume of the kettle at 33.6 degrees Celsius is 5.96 × 10⁻⁶ cubic meters.

Use the coefficient of thermal expansion of aluminum to calculate the increase in volume of the kettle. The formula for volume expansion is:

ΔV = V₀αΔT

where:

ΔV = change in volume

V₀ = initial volume

α = coefficient of thermal expansion

ΔT = change in temperature

Rearrange the formula to solve for the initial volume:

V₀ = ΔV / (αΔT)

First, calculate the change in temperature and the change in volume:

ΔT = 85.2°C - 30.4°C = 54.8°C

ΔV = 7.04 × 10⁻⁶ m³

Next, let's plug in the values:

V₀ = ΔV / (αΔT)

V₀ = 7.04 × 10⁻⁶ m³ / (2.38 × 10⁻⁵ (°C)⁻¹ × 54.8°C)

V₀ = 5.96 × 10⁻⁶ m³

Now use the coefficient of thermal expansion to find the change in volume when the temperature changes from 30.4°C to 33.6°C:

ΔT = 33.6°C - 30.4°C = 3.2°C

ΔV = V₀αΔT

ΔV = 5.96 × 10⁻⁶ m³ × 2.38 × 10⁻⁵ (°C)⁻¹ × 3.2°C

ΔV = 4.53 × 10⁻¹⁰ m³

Finally, find the volume of the kettle at 33.6°C:

V = V₀ + ΔV

V = 5.96 × 10⁻⁶ m³ + 4.53 × 10⁻¹⁰ m³

V = 5.96 × 10⁻⁶ m³ (to three significant figures)

Therefore, the volume of the kettle at 33.6 degrees Celsius is 5.96 × 10⁻⁶ cubic meters.

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Answer:

Option D.

Explanation:

Here is how :

Basically, the changing of the current reverses the polarity of the induced magnetic field, thus causing each stator to keep pushing the rotor due to what so called as "repulsive forces".

In a motor, the interaction between the magnetic fields of the stators and the rotor creates a force that causes the rotor to rotate. By continuously changing the current in the rotor's coil, the polarity of the magnetic field produced by the rotor changes. This changing magnetic field interacts with the fixed stator magnets, resulting in a repulsive force that keeps pushing the rotor to rotate. This process of reversing the polarity of the induced magnetic field ensures continuous rotation of the motor.

To express the decimals as powers of ten, the answer will be a) 5 ×10-¹, b) 1.04×10-³, c) 8.4 ×10-², d) 3.6×10-⁴.

A decimal is a number with a whole and a component of fraction. Decimal numbers, which are in between integers, are used to express the numerical value of whole and partially whole quantities.

As with multiplying decimals (see Decimal Multiplication), count the base number's decimal places before multiplying by a decimal. Add the exponent to that number after that. The total number of decimal places in the response will be this.

Therefore, the answer will be

a) 0.5 = 5 ×10-¹

b) 0.001 04 = 1.04×10-³

c) 0.084 = 8.4 ×10-²

d) 0.000 36 = 3.6×10-⁴

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The centripetal force affecting the body has to be doubled.

1. The centripetal force acting on a body moving in a circular path of radius r with speed v is given by F = mv²/r, where m is the mass of the body.

2. If the speed of the body increases to √2v while moving in the same circular path, the new centripetal force acting on the body can be calculated as follows:

  F' = m(√2v)²/r = 2mv²/r

3. Comparing the new centripetal force F' with the initial centripetal force F, we get:

  F' = 2F

4. As a result, the centripetal force acting on the body must be twice in order for the body to proceed in the same circular direction at 2v.

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The mass of 5 cm³ of copper is 45 grams. This means that if we had a block of copper with a volume of 5 cm³, it would weigh 45 grams.

The density of copper is given as 9 g/cm³, which means that for every cubic centimeter (cm³) of copper, there is a mass of 9 grams (g). To find the mass of 5 cm³ of copper, we can use the following formula:

mass = density x volume

where mass is the mass of the object in grams, density is the density of the material in grams per cubic centimeter, and volume is the volume of the object in cubic centimeters.

Plugging in the values we have, we get:

mass = 9 g/cm³ x 5 cm³

mass = 45 g

Therefore, the mass of 5 cm³ of copper is 45 grams. This means that if we had a block of copper with a volume of 5 cm³, it would weigh 45 grams.

It is important to note that the density of a material is an important physical property that relates its mass to its volume, and is often used in calculations involving materials and objects of different shapes and sizes.

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Yes, Thermoproteota is a phylum of unicellular microorganisms.

Thermoproteota is a phylum of unicellular microorganisms that belong to the domain Archaea.

These organisms are known for their ability to survive in extreme environments such as high temperatures, high pressure, and acidic or alkaline conditions.

Members of the Thermoproteota phylum are thermophilic, meaning they thrive in high temperatures ranging from 45-80°C. They can be found in a variety of environments, including hot springs, hydrothermal vents, and geothermal fields.

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Answer:

5.0 x 10^8

Explanation:

because u moved it 8 times to it places

The flux of the electric field through the square in the xy-plane at z=0, we need to first determine the area of the square.

The side length of the square is given as 0.26 m, so the area of the square is A = (0.26 m)^2 = 0.0676 m^2.

Since the electric field is in the z-direction and the square is in the xy-plane, the electric field is perpendicular to the square. Therefore, the flux through the square is given by:

Φ = E⊥ A

where E⊥ is the component of the electric field perpendicular to the square.

Since the electric field is in the z-direction, its perpendicular component is simply the z-component, which is given as E⊥ = Ez = 929x N/C.m.

Substituting the values, we get:

Φ = (929x N/C.m) x (0.0676 m^2) = 62.6x N/C

Therefore, the flux through the square is 62.6x N/C.

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The height to which the object is lifted is 0.14 meters.The problem seems to involve the concept of work, potential energy, and equilibrium.

The upward force of 442N must be balanced by the downward force of the object's weight to maintain equilibrium. Assuming the object is stationary, we can equate the upward force to the weight of the object:

442N = weight of the object

Weight = m * g, where m is the mass of the object and g is the acceleration due to gravity (9.8m/s^2).

So, 442N = m * 9.8m/s^2

Solving for m, we get m = 45.10 kg.

Now, the work done by the applied force of 32N over a distance of 2m is given by W = F * d = 32N * 2m = 64 J (Joules).

As the object is lifted, its potential energy increases by the amount of work done on it. This potential energy is given by the formula:

Potential energy = m * g * h

where h is the height to which the object is lifted.

Equating the work done on the object to the increase in its potential energy, we get:

64 J = 45.10 kg * 9.8m/s^2 * h

Solving for h, we get h = 0.14 m (rounded to two decimal places).

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The tension in the guideline are 151.8 N when the model airplane is flying in a circle at a constant speed of 19.6 m/s. When the speed is increased to 39.2 m/s, the tension in the guideline increases to 283.8 N.

In Example 5, the model airplane was flying in a circle at a constant speed. The tension in the guideline was equal to the centripetal force, which was given by the equation:

Fc = mv²/r

where m = mass of the airplane, v = speed, and r = radius of the circle.

In this case, there is no upward lift on the plane, so the tension in the guideline is equal to the weight of the plane, which is given by the equation:

W = mg

where m = mass of the plane and g = acceleration due to gravity.

Set these two equations equal to each other to find an expression for the tension in the guideline:

mv²/r = mg

Solving for T:

T= mv²/r + mg

For the given values, calculate the tension in the guideline as follows:

T = (2.42 kg)(19.6 m/s)²/(18.5 m)  + (2.42 kg)(9.8 m/s²)

T = 128.1 N + 23.7 N

T = 151.8 N

Therefore, the tension in the guideline is 151.8 N when the model airplane is flying in a circle at a constant speed of 19.6 m/s. When the speed is increased to 39.2 m/s, the tension in the guideline increases to 283.8 N.

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Complete question:

Redo Example 5,assuming that there is no upward lift on the plane generated by its wings. without such lift , the guideline shapes downward due to the weight of the plane. for purposes of significant figures, use 2.42 kg for the mass of the plane , 18.5m for the length of the guideline , and 19.6 and 39.2 m/s for he speeds.

The model airplane in Figure 5.6 has a mass of 0.90 kg and moves at a constant speed on a circle that is parallel to the ground. The path of the airplane and its guideline lie in the same horizontal plane, because the weight of the plane is balanced by the lift generated by its wings. Find the tension in the guideline (length = 17 m) for speeds of 19 and 38 m/s.