if the temperature outside increased 10 ºc, the dew point would _____.

In Fahrenheit, 35.7 degrees Celsius is equivalent to 128.26 degrees.

Use the formula below for the convert 35.7 degrees Celsius to Fahrenheit:

°F = (°C x 1.8) + 32

The process of translating a temperature from one scale to another is referred to as temperature conversion. Temperature conversions between the several regularly used temperature scales, including Celsius, Fahrenheit, and Kelvin, are frequently required.

where the temperature is expressed in degrees Fahrenheit (°F) and degrees Celsius (°C).

Plugging in 35.7 degrees Celsius yields the following results:

°F = (35.7 x 1.8) + 32 °F

=> 96.26 + 32 °F

=> 128.26

As a result, 35.7 Celsius is equivalent to 128.26 Fahrenheit.

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The given statement " A higher frequency is often perceived as having lower pitch" is false. Because  pitch is closely related to the frequency of a sound wave - the higher the frequency, the higher the pitch.

Pitch is a perceptual characteristic of sound that relates to the frequency of a sound wave. Frequency is the number of cycles of a sound wave that occur in one second, measured in Hertz (Hz).

Higher frequencies have more cycles per second than lower frequencies. Therefore, when we hear a sound with a higher frequency, our brain interprets it as having a higher pitch.

It is possible that the question may have been asking about the perception of the amplitude (volume) of a sound wave. In this case, it could be true that a higher frequency sound is perceived as having a lower volume, as some frequencies may be less audible to the human ear. However, it is important to note that the original question was about pitch, not volume.

Therefore, the given statement is false

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The correct answer is option is  B. Auger. Because  an auger drill rig is specifically designed for drilling in soft soils. It uses a large rotating drill bit with a helical screw-like design to remove soil from the hole it is drilling.

Also, It is a popular choice for environmental and geotechnical drilling projects, as it can drill quickly and efficiently through soft, saturated soils.. Auger drills are available in a variety of sizes and configurations, and can be used with different drilling techniques, including direct push, rotary, and sonic drilling. Hence, the correct answer is option : B.

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Answer:

Below

Explanation:

Fgravity = G m1 m2 / r^2      G is a constant

  so the factors that affect the gravity are the square of the distance between the two objects and the two masses

The electric potential at corner A is -780 V.

To solve this problem, we can use the formula for electric potential:

V = kq/r

where V is the electric potential, k is the Coulomb constant (9 x 10^9 N m^2/C^2), q is the charge, and r is the distance from the charge.

(a) To find the electric potential at corner A, we need to add the contributions from q1 and q2. The distance from q1 to A is 5 cm, and the distance from q2 to A is 15 cm. Using the formula for electric potential, we get:

V1 = kq1/r1 = (9 x 10^9 N m^2/C^2)(-5 x 10^-6 C)/(0.05 m) = -900 V

V2 = kq2/r2 = (9 x 10^9 N m^2/C^2)(2 x 10^-6 C)/(0.15 m) = 120 V

The total electric potential at A is the sum of V1 and V2:

V = V1 + V2 = -900 V + 120 V = -780 V

Therefore, the electric potential at corner A is -780 V.

(b) To find the electric potential at corner B, we use the same formula and distances, but with the signs of the charges reversed:

V1 = kq1/r1 = (9 x 10^9 N m^2/C^2)(5 x 10^-6 C)/(0.05 m) = 900 V

V2 = kq2/r2 = (9 x 10^9 N m^2/C^2)(-2 x 10^-6 C)/(0.15 m) = -120 V

The total electric potential at B is the sum of V1 and V2:

V = V1 + V2 = 900 V - 120 V = 780 V

Therefore, the electric potential at corner B is 780 V.

(c) To find the work required to move q3 from B to A along a diagonal of the rectangle, we can use the formula:

W = ΔV*q3

where ΔV is the change in electric potential, which is the difference between the electric potentials at B and A, and q3 is the charge. Using the values we found in parts (a) and (b), we get:

ΔV = V(B) - V(A) = 780 V - (-780 V) = 1560 V

W = ΔV*q3 = (1560 V)(3 x 10^-6 C) = 4.68 x 10^-3 J

Therefore, the work required to move q3 from B to A along a diagonal of the rectangle is 4.68 x 10^-3 J.

(d) Moving q3 from B to A along a diagonal of the rectangle increases the electric energy of the three-charge system. This is because the electric potential energy of a charge q in an electric potential V is given by:

U = qV

When q3 is moved from B to A, its electric potential energy increases because the electric potential at A is lower than the electric potential at B. Therefore, the work done to move q3 from B to A is converted into electric potential energy of the three-charge system.

(e) If q3 is moved along a path that is inside the rectangle but not on a diagonal, it will experience a different electric potential than if it were moved along a diagonal. Therefore, a different amount of work will be required to move q3 from B to A along this path. In general, the work required to move a charge between two points.

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The amount of power needed to draw the sled 1.00 km in 20.0 minutes at a tension of 100.0 N is roughly 83.3 watts.

Energy is referred to as the ability to perform the work, whereas work is defined as the displacement of an object when a force (push or pull) is applied to it. It can be found in a variety of forms, including potential, kinetic, chemical, thermal, nuclear, electrical, and so forth.

We can apply the power equation:

Power is defined as the product of work, the quantity of energy needed to move the sled, and time, the length of the sled's motion.

Finding the work completed on the For work, we can apply the following formula:

work = force x distance

distance = 1.00 km x 1000 m/km = 1000 m

time = 20.0 min x 60 s/min = 1200 s

work = force x distance = 100.0 N x 1000 m = 100000 J

Finally, we can calculate the power required to move the sled:

power = work / time = 100000 J / 1200 s = 83.3 W.

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The correct option is C. The blue-shifted spectral lines of Sirius indicate that it has a radial velocity that is towards us.

Radial velocity is a measure of the motion of an object in a straight line towards or away from an observer. In physics, it is commonly used to describe the motion of celestial bodies, such as stars and planets, as they move towards or away from the Earth.

Radial velocity is typically measured using the Doppler effect, which is the apparent shift in the frequency of electromagnetic waves due to the motion of the source of the waves. For example, if a star is moving toward the Earth, the wavelengths of light it emits will be compressed, resulting in a blue shift. Conversely, if a star is moving away from the Earth, the wavelengths of light will be stretched, resulting in a redshift.

A radial velocity is an important tool for astronomers, as it can be used to determine the distance, mass, and orbit of celestial objects. It is also used in other fields of physics, such as in the study of fluid dynamics, where it is used to describe the motion of fluids in circular or radial patterns.

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8.09 C of charge is present on each electrode.

Each electrode has an 8.09 C charge (microcoulombs).

Using the equation Q = CV, where Q denotes the charge, C the capacitance, and V the potential difference, this may be determined. The formula C = A/d can be used to compute capacitance, where A is the area of the electrodes, d is the distance between them, and is the permittivity of free space.

We may calculate C as follows by plugging in the supplied values: C = (8.85 x 10-12 F/m)(0.06 m x 0.06 m)/(0.001 m) = 3.186 x 10-11 F.

Once this is done, Q = CV = (3.186 x 10-11 F)(9.0 V) = 2.8674 x 10-10 C = 8.09 C.

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B. Doubling The Distance Between Capacitor Plates Will Reduce The Capacitance Two-Fold.  

Capacitor is an electrical device used to store energy. It is composed of two conducting plates separated by an insulating material called the dielectric. When a voltage is applied to the two plates, an electric field forms between them, storing energy in the form of an electrical charge. Capacitors are used in a variety of applications, such as in filter circuits, timing circuits, and power supply circuits.

The capacitance of a capacitor is directly proportional to the area of the plates and inversely proportional to the distance between the plates. Therefore, when the distance between the plates is doubled, the capacitance is halved.

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Answer:

The speed of the crate when it reaches the bottom can be calculated using the equation:

v = √(2gh)

Where v is the speed, g is the acceleration due to gravity (9.8 m/s2), h is the height of the ramp (3.20 m).

Therefore, the speed of the crate is:

v = √(2 * 9.8 * 3.20) = 7.7 m/s

The baseball will reach its maximum height after approximately 6.11 seconds using equations of motion where velocity is given

When a baseball is thrown straight up with an initial velocity of 60 m/s, it will eventually reach a maximum height before falling back down due to gravity. To determine how many seconds later the baseball will reach its maximum height, we need to use the equations of motion.

The equation we can use to find the time taken for the baseball to reach its maximum height is:

t = Vf / g

where t is the time taken, Vf is the final velocity (which is zero at the maximum height), and g is the acceleration due to gravity, which is approximately [tex]9.81 m/s^2[/tex].

Substituting:

t = 60 / 9.81

t ≈ 6.11 seconds

Therefore, the baseball will reach its maximum height after approximately 6.11 seconds. After this point, the baseball will begin to fall back down to the ground due to the force of gravity, with its velocity increasing at a rate of [tex]9.81 m/s^2[/tex]

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The excess charge on a conducting sphere is 25nC.

When matter is placed in an electromagnetic field, it creates a force due to its physical property known as electric charge. They can have a positive or negative charge (usually, by convention, carried by protons and electrons, respectively). Dissimilar charges attract and like charges repel. Neutral refers to objects that have no net electrical charge. Classical electrodynamics, the name given to our early understanding of charged particle interactions, can also be applied to problems that do not require consideration of quantum phenomena. Charge is a conserved property. That is, the net charge (the sum of the positive and negative charges of the isolated system) does not change. 

The excess charge of a conducting sphere can be determined using the sphere capacitance formula.

C = 4πε₀R

where C is the capacitance, ε₀ is the electrical constant, and R is the radius of the sphere.

The potential difference between a conducting sphere and infinity is given by the formula:

ΔV = V - V∞ = V

where V∞ is the potential at infinity, which in this case is zero.

The charge of a sphere can be calculated using the formula:

Q = CΔV 

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The water vapour and steam are two forms of gaseous state of water. Each of them differs slightly from the other. They can be differentiated by few points explained below.

While all types of vapour are referred to as steam, not all types of vapour are considered to be steam. Water that is in its gaseous state is referred to as steam. In some situations, steam and water vapour are interchangeable terms. The term "steam" can also be used more colloquially to describe the combination of vapour and aerosol liquid water droplets suspended in the vapour.

When a material is heated to a vapourous state, steam is created. However, when a substance is kept in typical conditions, the steams that are generated are referred to as vapours.

This is explained with an example. When water is boiled, a significant quantity of steam is produced, which is extremely hot due to the energy it contains.

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The battery can supply 1512 coulombs of charge. The expected lifetime of the pacemaker is approximately 2.7 × 10^8 seconds, or about 8.5 years.

To find the number of coulombs of charge that can be supplied by the lithium-iodine battery, we can use the formula:

Q = I × t

Where Q is the charge in coulombs, I is the current in amperes, and t is the time in seconds.

We are given that the battery can supply 0.42 A⋅h of charge. To convert this to coulombs, we can use the fact that:

1 A⋅h = 3600 C

Therefore, the battery can supply:

0.42 A⋅h × 3600 C/A⋅h = 1512 C

So the battery can supply 1512 coulombs of charge.

We are given that the average current produced by the pacemaker is 5.6 μA. To find the expected lifetime of the device, we can use the formula:

t = Q / I

Where t is the time in seconds, Q is the charge in coulombs, and I is the current in amperes.

From above part, we know that the battery can supply 1512 coulombs of charge. Therefore, the expected lifetime of the pacemaker is:

t = 1512 C / 5.6 × 10^-6 A = 2.7 × 10^8 seconds

So the expected lifetime of the pacemaker is approximately 2.7 × 10^8 seconds, or about 8.5 years.

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Answer:

All galaxies appear to be moving away from all other galaxies.

Explanation:

i m smart brainlist please

During day, atmosphere gets warm causing air to rise and circulate and at night it cools down and radiates heat back into space leading to stability.

The daily conditions in the Earth's atmosphere are complex and variable, influenced by a range of factors including temperature, pressure, humidity, and wind patterns. Understanding these conditions is essential for predicting and responding to weather events and for developing strategies to mitigate the impact of climate change on the planet.

The Earth's atmosphere is the layer of gases that surrounds the planet and plays a crucial role in supporting life. The daily conditions in the Earth's atmosphere can vary depending on various factors, such as the time of day, location, and weather patterns.

During the day, the atmosphere experiences warming due to the energy from the sun, which causes the air to rise and circulate, leading to the formation of clouds and other weather phenomena. The intensity of the warming depends on the angle of the sun's rays and the amount of cloud cover, which can affect the temperature and humidity levels.

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Examples of systematic and random errors are Zero error in instruments, Calibration errors, Reading errors and Natural variations.

In experimental research, there are two types of errors: systematic errors and random errors.

Systematic errors are errors that are consistent and repeatable in a given experiment, and they are usually caused by flaws or limitations in the experimental design or instruments. Examples of systematic errors include:

On the other hand, random errors are errors that are unpredictable and occur randomly in an experiment. They are usually caused by fluctuations in the experimental conditions or measurement process. Examples of random errors include:

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Answer:

i got u

Explanation:

To find the time taken to cover a distance of 180 km with velocity magnitude 20 m/sec, we can use the formula:

time = distance / velocity

Converting the distance to meters, we get:

180 km = 180,000 m

Plugging in the values, we get:

time = 180,000 m / 20 m/sec

Simplifying, we get:

time = 9,000 seconds

Therefore, the time taken to cover a distance of 180 km with velocity magnitude 20 m/sec is 9,000 seconds.

The maximum speed at which the car can make the turn is approximately 22.3 meters per second.

Explanation:

Using the formula v = √(u * g * r), where u is the coefficient of friction, g is the acceleration due to gravity, and r is the radius of the curve, we can calculate the maximum speed of the car:

v = √(0.850 * 9.81 m/s^2 * 35.0 m) = 22.3 m/s

45 degrees Celsius in Fahrenheit is 113F. Fahrenheit and Celsius are related in that they are both units of temperature measurement.

The formula to convert Celsius to Fahrenheit is:

[tex]F = (C * 1.8) + 32[/tex]

Using this formula, we can calculate the conversion of 45 degrees Celsius to Fahrenheit.

First, we multiply 45 times 1.8:

45 Celsius x 1.8 = 81

Next, we add 32 to 81:

81 + 32 = 113

Therefore,  conversion of 45 degrees Celsius to Fahrenheit is equal to 113 degrees Fahrenheit.

Fahrenheit was developed by German physicist Daniel Gabriel Fahrenheit in the early 1700s. It is a scale based on 0 degrees as the freezing point of water and 96 degrees as the boiling point of water.

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The kinetic energy of the particle of the gas best describes about the energy in a gas.

The energy possessed by a body by the virtue of its motion is called the kinetic energy of a body.

We know that the particles of the gas are in a continuous random motion and because these particles are in motion they will possess some kinetic energy and it is a very convenient things for us to calculate the kinetic energy of the body to have a rough idea about the energy that is present in the gas or we can say the particle of the gas.

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A. The actual average weight of the bread loaves made at the bakery is one pound.

Alternative: Less than 1 pound is the actual average weight of bread loaves made in the bakery.

The population mean weight of bread loaves made in the bakery is an important variable.

B. The sample mean weight of 0.975 pounds is smaller than the predicted population mean weight of 1 pound, providing some support for the alternative hypothesis. This shows that the new workers might be making too-light loaves.

C. The test's P-value in component (a) is 0.0806. This indicates that there is an 8.06% chance of getting a sample mean weight of 0.975 pounds or less if the null hypothesis is true (i.e., the true population mean weight of loaves of bread is 1 pound).

D. If the P-value is less than 0.01 at the = 0.01 significance level, we would reject the null hypothesis. Since the P-value of 0.0806 is higher than 0.01, the null hypothesis cannot be rejected. As a result, we lack adequate data to draw the inference that the actual average weight of loaves of bread made at the bakery is less than one pound.

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"The hang time of the parachute increased with string length, as it increases the air resistance. Even while gravity was always pushing on the object, the shorter strings increased the force it was exerting."

The primary forces that affect a parachute are drag and gravity. Gravity pulls the parachute downward when you first open it, which causes it to fall quickly to the earth. However, the drag gets worse as the pace falls.

A parachute falls more slowly the more air it needs to push aside due to its larger surface area.

Air resistance increases with string length, extending hang time and delaying parachute fall. Even though gravity was always pulling on the object, the shorter ropes enhanced the power that gravity was exerting on it.

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The extensions of the middle and lower springs are 0.3209 m and 0.1988 m, respectively, from their unstretched lengths.

We can solve this problem using the concept of equilibrium and the equations of motion. In equilibrium, the weight of each mass is balanced by the force exerted by the spring, so we have:

m₁g = kx₁

m₂g = kx₂

m₃g = kx₃

where g is the acceleration due to gravity, k is the spring constant, and x₁, x₂, and x₃ are the extensions of the three springs from their unstretched lengths.

When the elevator is moving with constant velocity, the forces on the masses are still balanced, so the extensions of the springs are unchanged. However, when the elevator is accelerating, the forces on the masses are no longer balanced, and the extensions of the springs will change. We need to take into account the pseudo-force experienced by the masses due to the acceleration of the elevator.

The pseudo-force on each mass is given by:

F' = m × a

where m is the mass of the object and a is the acceleration of the elevator. For m₁, m₂, and m₃, the pseudo-forces are:

F₁' = m₁a = 3.3 kg × 4.8 m/s² = 15.84 N

F₂' = m₂a = 9.9 kg × 4.8 m/s² = 47.52 N

F₃' = m₃a = 6.6 kg × 4.8 m/s² = 31.68 N

To calculate the new extensions of the springs, we need to add the pseudo-forces to the weights of the masses and then divide by the spring constant. For the upper spring, which is attached to m₁, we have:

kx₁ = m₁g + F₁'

x₁ = (m₁g + F₁')/k

Substituting the values, we get:

x₁ = (3.3 kg × 9.81 m/s² + 15.84 N)/(229.57 N/m) = 0.1003 m

So the upper spring is extended by 0.1003 m from its unstretched length.

For the other two springs, we have:

x₂ = (m₂g + F₂')/k = (9.9 kg × 9.81 m/s² + 47.52 N)/(229.57 N/m) = 0.3209 m

x₃ = (m₃g + F₃')/k = (6.6 kg × 9.81 m/s² + 31.68 N)/(229.57 N/m) = 0.1988 m

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The average power output of the weightlifter is 2,500 watts.

Power is defined as the rate at which work is done, or the amount of work done per unit time. In this case, the work done is the lifting of the weight (250 kg) a certain height (2.0 m), and the time taken to do the work is 2.0 s.

Power = Work / Time

Work = Force x Distance

where Force is the weight of the object (250 kg x 9.8 m/s^2 = 2,450 N) and Distance is the height lifted (2.0 m).

So, Work = 2,450 N x 2.0 m = 4,900 J

Power = Work / Time = 4,900 J / 2.0 s = 2,450 W

Therefore, the average power output of the weightlifter is 2,500 watts (W), which is equivalent to 2.5 kilowatts (kW).

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A) At bottom Normal force is minimum, so: [tex]Nbottom = mvb^2/R - mg[/tex] B) At top Normal force is maximum, so: [tex]Ntop = mvt^2/R + mg[/tex]

A) When you are passing the bottom of the loop, the normal force that the seat exerts on you can be compared to the force that Earth exerts on you. At the bottom of the loop, the net force on you is equal to the force of gravity, and it acts towards the center of the loop, providing the centripetal force required to keep you moving in a circular path.

The normal force, N, is the force exerted by the seat on you, perpendicular to the surface of the seat. The force of gravity, mg, acts vertically downwards. Therefore, we can write:

[tex]Nbottom + mg = Fnet = mvb^2/R[/tex]

where R : radius of the loop and vb : speed at the bottom of the loop.

At the bottom of the loop, the normal force is at a minimum, and it is equal to:

[tex]Nbottom = mvb^2/R - mg[/tex]

B) When you are passing the top of the loop, the normal force that the seat exerts on you can be compared to the force that Earth exerts on you. At the top of the loop, the net force on you is again equal to the force of gravity, but it acts downwards, providing the centripetal force required to keep you moving in a circular path.

The normal force, N, is still perpendicular to the surface of the seat. The force of gravity, mg, acts vertically downwards. Therefore, we can write:

[tex]Ntop + mg = Fnet = mvt^2/R[/tex]

where vt : speed at the top of the loop.

At the top of the loop, the normal force is at a maximum, and it is equal to:

[tex]Ntop = mvt^2/R + mg[/tex]

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From the given information, in this process the energy of the system stays the same, i.e., option c is the correct answer.

According to the law of conservation of energy, energy can neither be created nor destroyed, only transferred or converted from one form to another. In this case, the metal sphere loses heat energy as it cools down, and the liquid gains an equal amount of heat energy as it warms up. Therefore, the total amount of energy in the system remains constant throughout the process, and the energy of the system stays the same.

Since the container is insulated, there is no heat exchange with the surroundings, and no energy is transferred in or out of the system. Therefore, the energy of the system remains constant, and option c is the correct answer.

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The time period of the simple pendulum on Venus is found to be 2.41 seconds.

Another mechanical mechanism that oscillates is the straightforward pendulum. It consists of a point mass "m" hung from a fixed support by a light, inextensible string with length L.

Time period:

T= 2π√(L/g)

g on Venus = 8.8 m/s²

T = 2*3.14*√(1.3/8.8)

T = 2.41

Thus, the time period of the simple pendulum on Venus is found to be 2.41 seconds.

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A cοmpοnent οr pictοrial diagram is an illustratiοn that depicts hοw actual cοmpοnents appear.

The pictοrial diagram is the mοst fundamental type οf diagram. It shοws a diagram οr sketch οf the variοus system cοmpοnents as well as the wiring between these cοmpοnents. Even if yοu are unfamiliar with the physical appearance οf system cοmpοnents, this simplified diagram allοws yοu tο quickly identify them.

This diagram shοws the variοus cοmpοnents withοut regard tο their physical lοcatiοn, hοw the wiring is labelled, οr hοw the wiring is rοuted. It dοes, hοwever, shοw the sequence in which the cοnstituents are linked.

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The lighter youngster pulls on the cord to reach a speed of 2 m/s. What is the other boy's beginning velocity when they collide, what occurs to their motion.

Particles in this homogeneous-appearing heterogeneous mixture range in size from 1 nm to 100 nm (1 nm = 109 m) and are scattered across a continuous media. In this instance, the two bodies quickly exert forces on one another. The collision changes the momentum and energy of the bodies that are interacting.

A mixture is a physical combination of two or more distinct substances that can come in the form of liquids, suspensions, or colloids.

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