Answer:
To determine the distance traveled in 22 seconds, we can use the formula:
distance = speed * time
First, we need to convert the speed from km/hr to m/s, which is the standard unit for measuring speed in physics.
1 km/hr = 1000/3600 m/s = 5/18 m/s
So, 650.0 km/hr = 650.0 * 5/18 m/s = 130.9 m/s
Next, we can calculate the distance traveled in 22 seconds:
distance = speed * time = 130.9 m/s * 22 s = 2860.8 m
So, the plane has traveled 2860.8 meters in 22 seconds.
Explanation:
When a cannon fires a cannon ball, the cannon will recoil backwards because the...
a) energy of cannon ball and the cannon is conserved
b) momentum of cannon ball and the cannon is conserved
c) energy of the cannon is greater than the cannon ball
d) Momentum of the cannon is greater than the cannon ball.
b) momentum of cannon ball and the cannon is conserved.
According to the law of conservation of momentum, when an object, such as a cannon ball, is fired from a cannon, the momentum of the system (cannon ball and cannon) remains constant before and after the firing.
This means that the total momentum of the system before firing is equal to the total momentum of the system after firing. To conserve the momentum of the system, the cannon ball moves in one direction with a certain momentum while the cannon moves in the opposite direction with an equal amount of momentum, resulting in a recoil of the cannon.
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how deep is a fathom
6 feet deep is a fathom .
What is fathom ?
A fathom is a unit of length that is used primarily to measure the depth of water in nautical and maritime applications. It is equivalent to 6 feet (1.83 meters) and is used to describe the depth of water in terms of the distance from the surface of the water to the ocean floor.
The word "fathom" comes from the Old English word "fæðm," which means "the outstretched arms." The term was used to describe the length of a human outstretched arms, which was approximately 6 feet.
In nautical and maritime applications, fathoms are used to measure the depth of water in harbors, shipping lanes, and other areas where ships and boats operate. This information is important for navigation, as it helps sailors and mariners to avoid shallow waters and potential hazards.
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A traveling wave along the x-axis is given by the following wave function
ψ(x, t) = 3.7 cos(2.3x - 9.2t + 0.54),
where x in meters, t in seconds, and ψ in meters. Read off the appropriate quantities for this wave function and find the following characteristics of this plane wave:
The amplitude in meters.
The frequency, in hertz.
The wavelength in meters.
The wave speed, in meters per second.
The phase constant in radians.
3.7 meters is the amplitude is meters. 1.464 Hz is the frequency in hertz. 2.732 meters is the wavelength. Four meters per second (m/s) is the wave speed. Radians equal 0.54 rad as the phase constant.
How fast or how fast is a wave?Despite the fact that technically, velocity involves both speed and direction, wave velocity is most often used to describe speed. Waves have velocities that are independent of their intensity and are equal to the product of their wavelength and frequency in vibrations per second. The usual equation will be:
A. Standard wave equation application
3.7 meters for the wave's amplitude, A.
Section B. 9.2 rad/s for w = axial frequency
When w = 2*pi*f f, frequency equals w/(2*pi) f = 9.2/(2*pi) f = 1.464 Hz.
2.3 is the wave number in Part C.
In addition, wavelength = 2*pi/k
wavelength = 2*pi/(2.3), or 2.732 meters
Part D. wave speed is calculated using the formula: V = w/k.
V = 9.2/2.3 V = 4 m/s is the wave speed.
Part E's phase constant is equal to 0.54 rad.
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the use of index fossils is applicable to which dating method?
The use of index fossils is applicable to bio stratigraphic dating.
In geology, index fossils are dead remains of animals and plants which have lived for a limited period of time and are deeply buried under the surface of the earth over time.
These type of fossils are used to identify and define geological time periods.
More specifically, these fossils represent rapid trends of evolution, wide range of geographic distribution and vertical range of plant or animal trapped inside the rocks.
Simply put, index fossils contain animals or plants records in the rocks and are helpful in the identification of the span of specific geologic time as well as environment.
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A package of weather instruments is attached to a weather balloon. The package has a mass of 12.4 kg. The system is released vertically from rest. The weather balloon provides a constant lift force of 122.5 N for 6.00 minutes.
Calculate the magnitude and direction of the instruments acceleration during the first 6 minutes of flight (ignore air resistance).
Answer should be 0.0790m/s^2
Answer:
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Explanation:
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a 82-kg athlete can climb 60 steps in 48 seconds. assuming the height of each step is 0.32 m, what is the average power output during the climb? (express result with no decimals followed by simplified is units)
The average power output by the athlete during the climb is equal to 321 joules per second or 321 watts.
In physics, power is defined to be work W over elapsed time t (P = W/t). Work is defined to be force F times displacement x (W = F · x). Weight is the force of gravity (Fg) and is equal to mass m times acceleration due to gravity g (Fg = m · g).
We are given that the athlete's mass is 82 kg and the acceleration due to Earth's gravity is 9.8 m/s², hence the athlete's weight is equal to 803.6 newtons. Also, the height of each of the 60 steps is 0.32 meters. The work done by the athlete then is Fg · x = 803.6 · (60 · 0.32) = 15,492.12 joules. Therefore, in 48 seconds the work done by the athlete is equal to 15,492.12 joules.
However, we haven't divide the work done by the elapsed time. The standard unit of power is watt (W — not to be confused with work W), and 1 watt is equal to 1 joule per 1 second (1 W = 1 J/s). We only need to divide the work done by 48 to get the average power output as follows:
15,492.12/48 = 321 J/s = 321 W.
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What are the magnitude and direction of the electric force on an electron in a uniform electric field of strength 3075 N/C that points due east?
The magnitude of electric force on an electron is calculated to be 4.92 × 10⁻¹⁶ N and the direction is due west.
The electric field strength facing straight east is E = 3075 N/C.
The magnitude of the charge on an electron is q = e = 1.6 × 10⁻¹⁹ C
In a uniform electric field with a strength of 3075 N/C and a direction of straight east, we are asked to determine the size and direction of the electric force acting on an electron. Due to the electron's negative polarity charge. The electric force acting on the electron in the electric field will therefore move in the opposite direction of the electric field. So, the direction of the electric force on the electron will be due west.
Calculating the strength of the electric force acting on the electron in the electric field is also required of us. As a result, we can use the following formula to describe the electric force acting on a charged particle in a consistent electric field:
F = q E = 1.6 × 10⁻¹⁹ × 3075 = 4920 × 10⁻¹⁹ N = 4.92 × 10⁻¹⁶ N
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How much charge is on each plate of a 3.00-µF capacitor when it is connected to a 16.0-V battery?
Charge on each plate of 3.00µF capacitor is 48C when it is connected to a 16.0-V battery.
The capacitors capacity to store this electrical charge ( Q ) between its plates is corresponding to the applied voltage, V for a capacitor of known capacitance in Farads. Note that capacitance C is Dependably sure and never negative.The more prominent the applied voltage the more noteworthy will be the charge put away on the plates of the capacitor.
Moreover, the more modest the applied voltage the more modest the charge. Hence, the genuine charge Q on the plates of the capacitor and can be determined as:Capacitance is the deliberate worth of the capacity of a capacitor to store an electric charge. This capacitance esteem likewise relies upon the dielectric consistent of the dielectric material used to isolate the two equal plates. Capacitance is estimated in units of the Farad (F), so named after Michael Faraday.
So,we know that charge on capacitor is equal to=capacitance×Voltage
=>Q=C×V
We have C=3.00-µF ,V=16V
=>Q=3×16
=>Q=48Columb.
Hence,charge on each plate is 48C.
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Which is the equation for terminal velocity? (1 point)
04₁ = √
V
O V =
V₁ = √
O4 = √
20
2dACd
dAC
2w
2m
dAC
2u²
VdAC
The equation for the terminal velocity is Vt = √ [ ( 2mg ) / ( ρACd ) ].
What is terminal velocity?
Terminal velocity, steady speed achieved by an object freely falling through a gas or liquid.
Mathematically, the formula for terminal velocity if given as;
Vt = √ [ ( 2mg ) / ( ρACd ) ]
where;
Vt is the terminal velocitym is the mass of the falling objectg is the acceleration due to gravityρ is the density of the fluid through which the object is fallingA is the projected area of the objectCd is the drag coefficientLearn more about terminal velocity here: https://brainly.com/question/25905661
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an electric charge with charge q is placed in an electric field with field magnitude e. due to the field, the charge experiences a force f. if the charge is doubled and the field tripled, how much force is then exerted on the charge?
If the charge is doubled and the field tripled, the force has increased by a factor of 6.
The electric force experienced by a charge q in an electric field E is given by Coulomb's law:
f = q X E
where q is the charge and E is the electric field magnitude.
If the charge is doubled to 2q and the electric field magnitude is tripled to 3E, the force experienced by the charge becomes:
f' = 2q X 3E
= 6q X E
So, the new force experienced by the charge is 6 times the original force. This means that the force has increased by a factor of 6.
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6. How long does it takes a swimmer with a power output of 275 watts to accomplish
3600 J of work? If she applied a 650 N force during that time with the same power
output, how far did she swim? SHOW YOUR WORK.
It takes 13.1 seconds for a swimmer with a power output of 275 watts to accomplish 3600 J of work. If she applied a 650 N force during that time with the same power output, she would have swam up to 5.54 meters.
In physics, power is the amount of energy that is converted or delivered in a given amount of time. The unit of power is the watt, which in the International System of Units is equivalent to one joule per second. In ancient literature, power is occasionally referred to as activity. A scalar quantity is power.
We know that
power = work / time
⇒ time = work / power
= 3600 / 275 = 13.1 seconds
Thus, It takes 13.1 seconds for a swimmer with a power output of 275 watts to accomplish 3600 J of work.
We also know that
power = (force × distance) / time
⇒ distance = (power × time) / force
= (275 watts × 13.1 seconds) / 650 N
= 5.54 meters
Thus, If she applied a 650 N force during that time with the same power output, she would have swam up to 5.54 meters.
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Two masses m1 = 15 kg amd m2 = 25 kg are joined by connecting a rod of length 0.8 m. Determine the
distance of the CM of the system from the m1 if a.) the connecting rod is massless, and b.) the connecting
rod is a uniform rod of mass 15 kg.
(a) The center mass when the connecting rod is massless is 0.5 m.
(b) The center mass when the connecting rod has a mass of 15 kg is 0.47 m.
What is the center mass of mass m1?The center mass of m1 is calculated by applying the following formula for center of gravity.
Cm = ( m1x₀ + m2x₁ ) / ( m1 + m2 )
since we are looking for the center mass of m1, we use it as the reference point.
when the connecting rod is massless,
Cm = ( 15kg x 0 + 25kg x 0.8 m ) / ( 15 kg + 25 kg )
Cm = 0.5 m
when the connect rod has a mass of 15 kg;
Cm = ( 15 kg x 0 + 15 kg x 0.4 m + 25 x 0.8 m ) / ( 15 kg + 15kg + 25 kg )
Cm = 0.47 m
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A fork lift truck lifts a heavy box onto a shelf. What action requires the greatest power output from the fork lift truck
Lifting the heavy box from the ground to the shelf requires the greatest power output from the fork lift truck.
The power output required to lift a heavy box with a fork lift truck is directly proportional to the weight of the box and the height it needs to be lifted. When lifting the box from the ground to the shelf, the full weight of the box must be lifted to the desired height, which requires the greatest power output.
The power output of the fork lift truck includes the energy used to overcome the force of gravity and the resistance of the air, as well as the energy used to overcome friction and other mechanical losses. The greater the weight of the box and the height it needs to be lifted, the greater the power output required from the fork lift truck.
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Choose the correct explanation why does the following statement make sense (or is clearly true) or does not make sense (or is clearly false):
"I've never been to space, so I've never experienced weightlessness."
This assertion is illogical. On Earth, everyone can experience weightlessness; all it takes is a sufficiently extended freefall.
What is the real name of Earth?Contrary to common opinion, Earth lacks an accepted name on a global scale. Another widespread misunderstanding of a planet's scientific name is "Terra." English speakers keep referring to the planet as Earth, including in analytical study.
Who named Earth Earth?Earth does not explicitly share a name in English with a prehistoric Roman deity, unlike other planets within the Solar System. The Anglo-Saxon term erda, which meaning ground or soil and ultimately descended from Proto-Indo European *er, was used to give the planet its name in the eighth century.
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5. according to the tables, which tested pipettor used was most precise? which parameter (average, standard deviation, ect.) did you use to decide this? explain. (4 points)
The most precise pipettor cannot be determined solely based on tables, as precision is determined by multiple parameters and depends on the specific experiment being performed.
To determine the most precise pipettor, one would need to look at the average, standard deviation, and coefficient of variation of the results obtained with each pipettor, as well as any systematic biases that might have affected the results.
Precision is a measure of the reproducibility or repeatability of a measurement, and is an important characteristic of laboratory equipment such as pipettors.
To determine the most precise pipettor, multiple parameters need to be considered, including the average, standard deviation, and coefficient of variation of the results obtained with each pipettor, as well as any systematic biases that might have affected the results.
The average is the mean or average value of the results obtained with each pipettor. The standard deviation is a measure of the variability or spread of the results, and is calculated as the square root of the variance. The coefficient of variation is a measure of the relative variability of the results and is calculated as the standard deviation divided by the mean.
The pipettor with the smallest standard deviation or coefficient of variation would be considered the most precise, as this would indicate that the results obtained with that pipettor are the most consistent and reproducible.
However, it is also important to consider any systematic biases that might have affected the results. For example, if one pipettor consistently gives results that are lower than expected, it may be considered less precise even if its standard deviation is smaller.
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sally, a space shuttle astronaut, is involved in repairing a satellite while in earth orbit, but he becomes separated from the space shuttle. he has a massive wrench in his hand. what should he do to return to the space shuttle?
Sally would throw the wrench in the opposite direction from the space shuttle to return to the space shuttle.
How do space shuttles change direction in space?
Spacecraft are usually equipped with a reaction control system (RCS). These are typically located in specific locations around the spacecraft's exterior to allow its orientation to be changed.
What keeps the space shuttle from burning up when returning to Earth?
Thus, the shuttle needs a layer of insulation. The shuttle enters or "attacks" the atmosphere at such an angle that its nose and underside contact and compresses the air and absorb most of the heat generated. On the underside are incredibly heat-resistant, insulating silica tiles.
How does the space shuttle return to Earth?
When the astronauts want to return to Earth they turn on the engines, to push their spacecraft out of orbit. Gravity then pulls the spacecraft back towards the Earth. The spacecraft may be slowed to a safe landing speed by parachutes.
Thus, sally would throw the wrench in the opposite direction from the space shuttle to return to the space shuttle.
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what is the line charge density on the wire?
The line charge density on a wire is the amount of electric charge per unit length on a wire. It is a measure of the distribution of electric charge along the length of a wire. The line charge density is calculated by dividing the total charge on the wire by the length of the wire.
In a conductor, electrons are free to move along the length of the wire, and the line charge density on the wire depends on the number of electrons and their distribution along the length of the wire. In an insulated wire, the line charge density is constant and uniform, while in a charged wire, the line charge density may vary along the length of the wire due to differences in the distribution of electrons.
The line charge density is an important concept in electromagnetism and electrical engineering. It is used to calculate the electric field and potential along a wire, as well as to determine the force between two charged conductors. Understanding the line charge density is important for the design and analysis of electrical circuits and systems, as well as for the study of fundamental electromagnetism phenomena.
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The quantity of electric charge present on a wire per unit length is known as line charge density. It is a measurement of the way electric charge is distributed along a wire's length.
Why would someone use the Wire app?With the aid of Wire, your team is able to interact and exchange information quickly, securely, and always in context. Your team can collaborate whether at the office or on the go thanks to Wire's availability on any platform and operating system.
Compared to signal, is wire safer?Neither has a serious security weakness, but both contain some flaws. As a person, it's likely impossible to find a safer app than Signal, which is fantastic for daily use. Businesses should seriously consider Wire, on the other hand.
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what is the speed of the runner at
The speed of the runner at the end of the race will depend on the distance of the race, the time it took the runner to complete the race, and the runner's level of fitness.
The speed of the runner at the end of the race will depend on how fast they ran during the race. If the runner was running at a constant speed, then their speed at the end of the race will be the same as their speed at the beginning.The first three seconds of a race see a runner's pace gradually increase.As was previously said, an individual's talent level and the quantity of training they have received throughout time will have a significant impact on their average running pace. The average running speed of a person who is in pretty good form, however, often varies from 10 to 15 miles per hour, or around 16 to 24 kilometres per hour.
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Complete question:What is the speed of the runner at the end of the race?
find the rotation speed for a person at latitude 30 ∘
The rotation speed at a given latitude is determined by the radius of the Earth at that latitude and the rotational velocity of the Earth. The spinning velocity of the Earth.
is around 1670 kilometers per hour (466 meters per second) at the equator and zero at the poles. The radius at 30° latitude is about equal to the average radius of the Earth multiplied by the cosine of the latitude. As a result, at 30° latitude,The rotation speed at a given latitude is determined by the radius of the Earth at that latitude and the rotational velocity of the Earth. The spinning velocity of the Earth. the rotation speed may be approximated as follows: v = * r where: = rotating velocity of the Earth (466 m/s) r = radius at 30° latitude (R * cos(30°)). We may calculate the rotation speed for a person at latitude 30° by inserting the numbers.
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What is 80 °C in Fahrenheit?
In Fahrenheit, 176 degrees are equal to 80 degrees Celsius.
What is Fahrenheit?In honour of physicist Daniel Gabriel Fahrenheit, a temperature scale is named Fahrenheit. At standard air pressure, it measures temperature using water at 32°F for the freezing point and 212°F for the boiling point.
How do you calculate it?The formula is F = (C * 9/5) + 32, where F is the temperature in Fahrenheit and C is the temperature in Celsius, can be used to convert a temperature from Celsius to Fahrenheit.
It is significant to observe that there is not an equal difference between each temperature increment on the two scales. One degree Celsius is equal to 1.8 degrees Fahrenheit. As a result, a temperature change from 20°C to 21°C is similar to one from 68°F to 69.8°F.
In conclusion, translating 80°C to 176°F allows us to better appreciate its significance on the Fahrenheit scale.
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What energy transformations occur at the macroscopic level?
Answer:electric
Explanation:
A 120 kg statue exerts what force on the Earth? (a = 9.8 m/s²)
1176 N is the correct answer .
What is acceleration ?
Acceleration is a measure of how quickly an object changes its velocity, or the rate at which its velocity changes over time. It is a vector quantity, which means it has both magnitude and direction. In physics, acceleration is usually defined as the change in velocity per unit time, and is expressed in units of meters per second squared (m/s^2). Acceleration can result from a change in speed, direction, or both. Objects that are accelerating are said to be undergoing a net force, and their acceleration is proportional to the magnitude of the force and inversely proportional to their mass.
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The displacement of a wave traveling in the positive x-direction is y(x,t)=(3.5cm)cos(2.7x-124t), where x is in m and t is in s. What is the frequency of this wave? What is the wavelength of this wave? What is the speed of this wave?
The frequency of the wave is 124 Hz, the wavelength is 2.4 m, and the speed is 449 m/s.
The frequency of a wave is given by the reciprocal of the time it takes for one complete cycle to pass a fixed point and is given by the formula: f = 1/T, where T is the period.
The wavelength of a wave is the distance between two consecutive points on the wave that are in phase and is given by the formula: λ = v/f, where v is the speed of the wave. The speed of a wave is the distance traveled by the wave per unit time and is given by the formula: v = λf.
By using these formulas, we can calculate the frequency, wavelength, and speed of the wave in the given equation. These values provide important information about the wave, such as its stability, energy, and behavior.4
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Piston in Water Bath Conceptual Work-Energy Problem
Imagine a piston containing a sample of ideal gas in thermal equilibrium with a large water bath. Assume that the piston head is perfectly free to move unless locked in place, and the walls of the piston readily allow the transfer of energy via heat unless wrapped in insulation. The piston head is unlocked and the gas is in an equilibrium state.
For each of the actions described below, state whether the work W done on the gas, the heat energy Qtransferred to the gas, and the change in the internal energy ?Eth of the gas are positive (+), negative (?), or zero (0).
After each action the piston is reset to its initial equilibrium state.
Throughout this item we will assume that the first law of thermodynamics is given by ?Eth=W+Q?.
Part A
Action: Lock the piston head in place. Hold the piston above a very hot flame.
Enter the signs of W, Q, and ?Eth Use +, ?, or 0 separated by commas. For example, if Wis positive, Q is negative, and ?Eth is zero, you would type +,-,0.
Part B
Action: Very slowly push the piston head down. Keep the piston is in constant thermal equilibrium with a large water bath.
Enter the signs of W, Q, and ?Eth Use +, ?, or 0 separated by commas. For example, if Wis positive, Q is negative, and ?Eth is zero, you would type +,-,0.
Part C
Action: Lock the piston head in place. Plunge the piston into very cold water.
Enter the signs of W, Q, and ?Eth Use +, ?, or 0 separated by commas. For example, if Wis positive, Q is negative, and ?Eth is zero, you would type +,-,0.
Part D
Action: Wrap the piston in insulation. Pull the piston head up.
Enter the signs of W, Q, and ?Eth Use +, ?, or 0 separated by commas. For example, if Wis positive, Q is negative, and ?Eth is zero, you would type +,-,0.
For a piston containing a sample of ideal gas the signs for work done (W) on the gas, the heat energy (Q) transferred to the gas, and the change in the internal energy (Eth) for the given actions are A) 0, +, + B) +, -, 0 C) 0, -, - and D) -, 0, -.
An ideal gas refers to a theoretical gas which is composed of many randomly moving point particles not subject to interparticle interactions. When the gas is compressed, the work done is greater than zero and energy is transferred from the environment to the gas. When the gas expands, work done is less than zero and energy is transferred from the gas to the environment. There is no work done if the volume does not change.
When heat energy flows into the gas, it is positive heat transfer and when heat energy flows out of the gas, it is negative heat transfer. According to the first law of thermodynamics, the change in internal energy of a gas is equal to the heat added to the gas minus the work done by the gas i.e., Eth = W + Q. Hence, signs of work done, and heat transfer will determine the sign of internal energy.
Part A: Action: Lock the piston head in place. Hold the piston above a very hot flame.
As the piston is held in place, there is no volume change as work done is zero. As piston is held over a very hot flame, the heat energy is provided to the gas sample, Q is positive. Based on the equation E will be positive.
The signs of W, Q, and E are 0, +, +.
Part B: Action: Very slowly push the piston head down. Keep the piston in constant thermal equilibrium with a large water bath.
As the piston is pushed slowly, the gas is compressed, and work done is positive and piston is in constant thermal equilibrium with a large water bath, the temperature will decrease, hence the heat transfer will be negative. Based on the equation E will be zero.
The signs of W, Q, and E are +, -, 0.
Part C: Action: Lock the piston head in place. Plunge the piston into very cold water.
As the piston is held in place, there will be no change in volume, hence no work is done. As the piston is plunged in very cold water, the temperature will decrease, hence the heat transfer will be negative. Based on the equation E will be negative.
The signs of W, Q, and E are 0, -, -.
Part D: Action: Wrap the piston in insulation. Pull the piston head up.
As the piston will be pulled, the gas will expand and hence the work done is negative. As the piston is insulated, there will be no transfer of heat, hence it will be zero. Based on the equation E will be negative.
The signs of W, Q, and E are -, 0, -.
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the widest part of an ellipsoidal microorganism observed under 4x magnification spans to the 18thdivision on the ocular microscope. what is the actual size of the microorganism?
A. 12 μm
B. 18 μm
C. 72 μm
D. 180 μm
E. 216 μm
Option C. 72 μm is coorrect. The actual size of the microorganism can be calculated by multiplying the size observed under the microscope with the magnification factor.
The calculation of actual size of a microorganism observed under a microscope is a crucial step in microbiology. This is because the actual size of a microorganism is necessary to determine its classification, morphology and other characteristics.
When using a light microscope, the size of an object is determined by using the ocular micrometer, which is a scale etched onto the lens of the eyepiece. The ocular micrometer allows you to accurately measure the size of an object by comparing its size to the scale etched onto the eyepiece. The ocular micrometer is calibrated to represent a specific magnification, and the actual size of an object can be calculated by multiplying the size observed under the microscope with the magnification factor.
In this case, the microorganism was observed under 4x magnification, and the widest part of the microorganism spanned to the 18th division on the ocular microscope. Therefore, the actual size of the microorganism would be 18 * 4 = 72 μm.
It's important to note that the actual size of a microorganism may change based on the type of microscope used, the sample preparation method, and other factors. Therefore, it's essential to accurately determine the actual size of a microorganism for accurate analysis and interpretation of results.
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What are some examples of system variables(forensics)
Lineups, photo arrays, and other identification procedures are some examples of system variables(forensics).
What are system variables(forensics)?The criminal justice system should and can control system factors. They comprise any technique used by law enforcement to access and document witness recollection, including lineups, photo arrays, and other identification processes.
The type of lineup used, the choice of "fillers," blind administration, instructions to witnesses prior to identification procedures, administration of lineups or photo arrays, and communication with witnesses after they make an identification are system variables that significantly affect the accuracy of identifications.
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PLS HURRY IM TAKING THE TEST! THX
Particles q1 = -75.8 uC, q2 = +90.6 uC, and 93 = -84.2 uC are in a line. Particles q1 and q2 are separated by 0.876 m and particles q2 and q3 are separated by 0.432 m. What is the net force on particle q3?
The net force on particle q3 is -3.49 x 10^-3 N.
What is net force on q3?The net force on particle q3 can be calculated by considering the electric forces between q3 and each of the other particles, and then adding them vectorially. The electric force between two charged particles can be calculated using Coulomb's law:
[tex]F = k * |q1 * q2| / r^2[/tex]
where k is Coulomb's constant (8.9875 x 10^9 N * m^2/C^2), q1 and q2 are the magnitudes of the charges, and r is the separation between the charges.
First, let's calculate the electric force between q3 and q2:
[tex]F12 = k * |-84.2 uC * 90.6 uC| / (0.432 m)^2\\= 8.9875 x 10^9 N * m^2/C^2 * (7583.792 uC^2) / (0.432 m)^2\\= 8.9875 x 10^9 N * m^2/C^2 * (7583.792 x 10^-6 C^2) / (0.432 m)^2\\= 3.05 x 10^-3 N[/tex]
Next, let's calculate the electric force between q3 and q1:
[tex]F13 = k * |-84.2 uC * -75.8 uC| / (0.876 m)^2\\= 8.9875 x 10^9 N * m^2/C^2 * (6399.756 uC^2) / (0.876 m)^2\\= 8.9875 x 10^9 N * m^2/C^2 * (6399.756 x 10^-6 C^2) / (0.876 m)^2\\= -6.54 x 10^-3 N[/tex]
Finally, the net force on particle q3 is given by the vector sum of the individual forces:
Fnet = [tex]F12 + F13 = 3.05 x 10^-3 N - 6.54 x 10^-3 N = -3.49 x 10^-3 N[/tex]
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A block is pushed with a force of 15 newtons and accelerates at a rate of 3. 0 m/s2. How much force would be needed to accelerate the same block at a rate of 6. 0 m/s2?.
The force required to accelerate the given block at 6.0 m/s² is 30 N
According to the Newton's second law of motion
Force(F)= Mass(m) × Acceleration(a)
Here, Initial Force (F) = 15 Newton (N)
Initial acceleration (a) = 3.0 m/s²
Finding the mass (m) of the block from the above equation , F = m×a
Mass of the block = F/a = 5 g
Now, the force required to accelerate the given block of 5g at 6.0 m/s²
= 5g × 6.0 m/s² = 30 N
Hence, the force required to accelerate the given block of 5g at 6.0 m/s² is 30 N
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what is the vapor at 20c of a solution of naphthalene
The pressure that naphthalene vapor exerts at 20 °C is known as the vapor pressure of a naphthalene solution.
The vapor pressure of a solution of naphthalene at 20°C is the pressure that the vapor of naphthalene exerts at that temperature. It is affected by the concentration of the solution, as well as the temperature. The vapor pressure of a solution of naphthalene at 20°C is typically between 0.0013 and 0.0015 atmospheres. This means that the vapor of naphthalene is very low at this temperature, and so it is unlikely to be present in the air in significant concentrations.
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a positively charged test particle is placed midway between two fixed, identical positively charged source particles. part a is the test particle in a stable or unstable equilibrium at that location?
a) The test particle is in a stable equilibrium regardless of dimensionality.
b) The test particle is in stable equilibrium if these particles are constrained to one dimension and in unstable equilibrium if the particles can move in at least two dimensions.
c) The test particle is in stable equilibrium if these particles are constrained to one or two dimensions and in unstable equilibrium if the particles can move in three dimensions.
d) The test particle is in an unstable equilibrium regardless of dimensionality.
b) The test particle is in stable equilibrium if the moving particles can only travel in one dimension, and in unstable equilibrium if they can move in at least two dimensions.
In this case, the dimensionality of the system affects the test particle's stability. The test particle will be in a stable equilibrium if the system is limited to one dimension. The test particle is in this case equally far from the two source particles, and as a result, each of them exerts electrostatic forces on it that are equal and opposing and cancel one another out. As a result, the test particle doesn't move from its place.
The test particle, on the other hand, is in an unstable equilibrium if the system exists in two or more dimensions.
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