The normal force of the bow on the string is 0.75 N. The coefficient of static friction between the bow and the string is 0.80. The string can be pulled before it slips if the string is bowed at its center as far as 106.06 m.
The maximum static friction force that can be applied to the string before it slips is the product of the normal force and the coefficient of static friction:
Fmax = μs × N = 0.80 × 0.75 N = 0.60 N
The tension in the string is 70 N. The string is bowed at its center, so the tension force is evenly distributed on both sides of the bow. The tension force on one side of the bow is:
Ft = 70 N / 2 = 35 N
The string will slip when the tension force exceeds the maximum static friction force:
Ft > Fmax
35 N > 0.60 N
The string can be pulled a distance of x before it slips. The tension force is equal to the product of the string's length and the distance the string is pulled:
Ft = L × x
35 N = 0.33 m × x
x = 35 N / 0.33 m = 106.06 m
The string can be pulled 106.06 m before it slips.
Therefore, the answer is 106.06 m.
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Calculate the de Broglie wavelength of a bullet of mass 25g moving with a velocity of 100ms −1?
The deroglie wavelength is obtained by the formulas =ph=mvh==0. 0251006 and 6261034 for a bullet with a mass of 25 gm and a speed of 100 m/s, respectively. λ=ph=mvh=λ=0. 025×1006. 626×10−34=2.
What are the definitions of frequency and wavelength?While troughs have the same wavelength, the wavelength is the distance between two wave crests. The frequency is measured in cycles per second (Hz), which is the number of vibrations that pass over a certain location in a second (Hertz).
Can you infer velocity from wavelength?Their wavelength is defined as the distance between two comparable sites on adjacent waves. The quantity of waves crossing a specific location during a defined period of time is known as the wave frequency. The relationships between the three variables are illustrated by this equation: Speed is defined as Wavelength x Frequency.
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While listening to the weather channel update you hear the meteorologist say "High wind advisory! Wind expected to reach velocities upward of 30 miles per hour."
Explain why this statement is false. What information would the meteorologist need to include to accurately describe velocity? What did he describe instead of velocity?
Answer: The answer provided describes the difference between wind speed and wind velocity, and explains why a statement made by a meteorologist that only mentions wind speed is inaccurate.
Explanation:
The statement made by the meteorologist is false because wind speed and wind velocity are not the same things. Wind speed refers to how fast the wind is moving, while wind velocity refers to both the speed and direction of the wind.
To accurately describe the wind's velocity, the meteorologist would need to include both the speed and direction of the wind.
For example, if the wind is moving at 30 miles per hour from the southeast, the meteorologist could say "High wind advisory! The wind is expected to reach a velocity of 30 miles per hour from the southeast.
In the original statement, the meteorologist only described the wind's speed, not its velocity. By only mentioning the wind speed, it is unclear whether the wind is moving in a specific direction and the statement becomes inaccurate.
how does a compass use magnetism to show direction?
The magnetic field is a zone where the force is active along imaginary lines. From the south magnetic pole to the north magnetic pole, this force has an effect on all magnetized objects, such as the needle of a compass. Under the effect of Earth's magnetic field, the needle always points toward the north magnetic pole.
What is magnetism ?When magnets attract or repel one another, they exert a force known as magnetism. The movement of electric charges is what generates magnetism. Atoms are little building blocks that make up all substances. There are electrons in every atom, which are charged particles.
The main purpose of a compasses is to find direction on the ground during navigation. This functions because the Earth's magnetic field resembles that of a bar magnet. North and south are indicated by the compass needle pointing in the direction of the Earth's magnetic field.
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Does everyone see the same side of the Moon?
No, everyone does not see the same side of the Moon. The Moon is tidally locked with the Earth, which means that it rotates on its axis at the same rate that it orbits around the Earth.
The Moon is Earth's only natural satellite, a celestial body that orbits our planet. It is the fifth-largest moon in the solar system, with a diameter of 3,474 km, about a quarter the size of Earth. The Moon's surface is covered in craters, mountains, and flat plains called maria. The Moon's gravity is about one-sixth of Earth's gravity, which allows astronauts to jump much higher and walk much more easily on its surface.
The Moon is thought to have formed around 4.5 billion years ago, shortly after the formation of the solar system. It is believed to have been created when a Mars-sized body collided with the early Earth, and the debris from the collision eventually coalesced to form the Moon. The Moon's phases are caused by its orbit around Earth, which takes about 27.3 days to complete.
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Find the equivalent capacitance of the combination. Assume that C1 = 11.8μF, C2 = 4.25 μF, and C3 = 3.56 μF.
The equivalent capacitance of the combination when connected in series is 1.66 μF and the equivalent capacitance of the combination when connected in parallel is 19.61 μF.
The capacitance C₁ is given as 11.8 μF.
The capacitance C₂ is given as 4.25 μF.
The capacitance C₃ is given as 3.56 μF.
If the capacitors are connected in parallel, the equivalent capacitance, C eq₁ is calculated as,
C eq₁ = C₁ + C₂ + C₃
C eq₁ = 11.8 μF + 4.25 μF + 3.56 μF = 19.61 μF
If the capacitors are connected in series, the equivalent capacitance, C eq₂ is calculated as,
1/C eq₂ = 1/C₁ + 1/C₂ + 1/C₃
1/C eq₂ = 1/11.8 + 1/4.25 + 1/3.56
1/C eq₂ = 0.085 + 0.235 + 0.281
1/C eq₂ = 0.601
C eq₂ = 1.66 μF
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two point masses m and m are separated by a distance d. if the separation d remains fixed and the masses are increased to the values 3m and 3m respectively, how does the gravitational force between them change?
The force of gravitational attraction increases by 9 as the two point masses increase by 3.
Gravitational force of attraction, F is the force that pulls two point masses, m and M which are separated by a distance, d.
Mathematically,
Fg = GMm/r^2
Initially,
M1 = M1
M2 = M2
The remaining parameters are unchanged.
Fg1 = G * M1 * m1/(d/2)^2
Then,
M1 = 3M1
M2 = 3M2
Fg2 = G * 3M1 * 3M2/(d/2)^2
Making the constants G/(d/2)^2 the subject of formula and then comparing both equations,
= Fg1 = (M1 * M2); Fg2 = (9 * M1 * M2)
= Fg2 = 9 * Fg1
The force of gravitational attraction increases by 9 as the two point masses increase by 3.
What is gravitational force?
Newton's cannonball is a "thought experiment" he offered that supports the idea that gravity is a fundamental force that governs planetary motion.He pretended to be a cannon on the summit of a very high mountain peak in this thinking experiment. If the cannon is fired after being filled with gunpowder, the following situations could occur.To know more about gravitational force, click the link given below:
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Bob is demonstrating the gravitational force on falling objects to his class. He drops an 1. 0 lb. Bag of feathers from the top of the science building. Determine velocity of the bag after falling for 3. 5 seconds assuming it has reach free fall and given the gravitational acceleration of 9. 8 m/sec2.
The velocity of the bag of feathers after falling for 3.5 seconds
is 34.3m/s.
The velocity of a falling object can be calculated using the following formula:
v = v_0 + g * t
where v_0 is the initial velocity (assumed to be zero for an object in free fall), g is the acceleration due to gravity (9.8 m/s^2), and t is the time elapsed.
The mass of the bag of feathers is not necessary for this calculation as the acceleration due to gravity is the same for all objects.
For the given case, after 3.5 seconds, the velocity of the bag of feathers can be calculated as follows:
v = 0 + 9.8 m/s^2 * 3.5 s
v = 34.3 m/s
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A pressure gage and a manometer are connected to a compressed air tank to measure its pressure. If the reading on the pressure gage is 11 kPa, determine the distance h between the two fluid levels of the water filled manometer. Assume the density of water is 1000 kg/m^3 and the atmospheric pressure is 101 kPa.
Distance between the two fluid levels in the manometer is 0.00916 meters or 9.16 millimeters.
A manometer is a device used to measure pressure by comparing it to the pressure of a fluid in a column. In this case, the manometer is filled with water, and is connected to the compressed air tank alongside a pressure gauge. The pressure gauge indicates that the pressure inside the tank is 11 kPa, but the manometer measures the difference between the pressure inside the tank and the atmospheric pressure. To calculate the distance h between the two fluid levels in the manometer, we need to use the following formula:
ΔP = ρgh
where ΔP is the pressure difference, ρ is the density of the fluid, g is the acceleration due to gravity, and h is the height difference between the two fluid levels.
First, we need to calculate the pressure difference between the air inside the tank and the atmospheric pressure:
ΔP = [tex]P_t - P_a[/tex] = 11 kPa - 101 kPa = -90 kPa
The negative sign indicates that the pressure inside the tank is lower than the atmospheric pressure. Next, we can plug in the values of ρ and g, which are [tex]1000 kg/m^3[/tex] and [tex]9.81 m/s^2[/tex], respectively:
[tex]-90 kPa = 1000 kg/m^3 * 9.81 m/s^2 * h[/tex]
Solving for h, we get:
h = [tex]-90 kPa / (1000 kg/m^3 * 9.81 m/s^2)[/tex] = -0.00916 m
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An electron moving through an electric field of 400 N/C and a magnetic field of .15 T experiences no net force. The two fields and the direction if motion are all mutually perpendicular. Calculate the speed of the electron.
Answer:
Explanation:
The force on an electron moving through an electric field is given by:
F = qE
where q is the charge of the electron, and E is the electric field.
The force on an electron moving through a magnetic field is given by:
F = qvB
where v is the speed of the electron, and B is the magnetic field.
Since the electron is experiencing no net force, the electric force must be balanced by the magnetic force. Thus:
qE = qvB
Solving for v, we get:
v = E/B
Substituting the given values, we get:
v = 400 N/C / 0.15 T
v = 2666.67 m/s
Therefore, the speed of the electron is 2666.67 m/s.
What is the specific heat of a 3.78 kg object that absorbs 678 J as the temperature increases by 4.25 K?
Answer:
Below
Explanation:
Specific heat has units of J / (kg C)
( a degree of C is the same as one K)
Sub in the values
678 J / (3.78 kg * 4.25 C) = spec heat = 42.2 J/(kg-K)
the primary mirror of telescope a has a diameter of 20 cm, and telescope b has a diameter of 100 cm. how do the light gathering powers of these two telescopes compare?
The light gathering power of telescope b is 25 times that of telescope a
The light gathering power of a telescope is determined by its collecting area, which is proportional to the square of the diameter of the primary mirror.
Assuming both telescopes have the same quality of optics and are used under similar conditions, the ratio of their light gathering powers is,
(telescope b collecting area) / (telescope a collecting area)
= (telescope b diameter)^2 / (telescope a diameter)^2
= (100 cm)^2 / (20 cm)^2
= 25^2 / 5^2
= 25
Therefore, the light gathering power of telescope b is 25 times that of telescope a.
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what is density of water in kg m3?
The density of water at standard temperature and pressure (STP), which is defined as 0 °C (273.15 K) and 1 atm (101.325 kPa), is approximately 1000 kilograms per cubic meter (kg/m³).
This value is commonly used as a reference value for the density of liquids and is often abbreviated as 1 g/cm³ or 1 g/mL.
Temperature is a measure of the degree of hotness or coldness of an object, substance, or environment. It is a physical quantity that quantifies the average kinetic energy of the molecules in a substance or object. The unit of measurement for temperature is degrees Celsius (°C) or Fahrenheit (°F), and the international standard unit is Kelvin (K).
Temperature is an essential factor in determining the physical, chemical, and biological properties of a substance or object. It affects the rate of chemical reactions, the conductivity of materials, and the behavior of living organisms. Temperature can be measured using thermometers, which are devices that detect changes in the thermal energy of a substance or object.
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You climb up a ladder, which was 3.4 m in height, and fell. If your mass is 65.8 kg, how fast would your velocity be right before you hit the ground upon falling?
Answer:
Below
Explanation:
Your mass is irrelevant....here is why:
All of your POTENTIAL energy (mgh)
will be converted to KINETIC energy ( 1/2 m v^2)
so
mgh = 1/2 m v^2 divide both sides by 'm' <====then 'm' is gone !
gh = 1/2 v^2 now multiply by 2
2 gh = v^2 sqrt both sides
v = sqrt (2gh) = sqrt [ 2 ( 9.81)(3.4)] = 8.2 m/s
why are some planets made out of gas
Planets that are made mostly of gas are known as gas giants. The four outer planets in our solar system, Jupiter, Saturn, Uranus, and Neptune, are all gas giants.
What are planets?These planets are made primarily of hydrogen and helium, with trace amounts of other elements. Planets that are made mostly of gas are known as gas giants. The four outer planets in our solar system, Jupiter, Saturn, Uranus, and Neptune, are all gas giants.
Gas giants are thought to have formed farther away from the Sun than the terrestrial planets (like Earth), where temperatures were low enough for hydrogen and helium to condense into solid ice. In these colder regions, there was a lot more gas and dust available to form planets, which led to the formation of gas giants.
As gas giants formed, their large masses and strong gravitational forces allowed them to capture even more gas and dust from the surrounding space, which contributed to their growth. The extreme pressures and temperatures in the cores of these planets also cause the hydrogen to undergo a phase transition, turning into metallic hydrogen that behaves like a liquid and contributes to the planet's magnetic field.
It's worth noting that gas giants are not entirely made of gas - they also have solid cores, although the exact size and composition of these cores is not well understood. Some gas giants may also have liquid layers between the gas and the core and may have complex weather patterns on their surfaces due to the interactions of different layers of gas moving at different speeds.
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most comets have short periods and orbit close to the ecliptic plane.True or False
False. Most comets actually have long periods and orbit at an inclination to the ecliptic plane, meaning they don't follow the same plane as the planets in our solar system.
Comets are small, icy bodies that originate in the outer reaches of the solar system, beyond the orbit of Neptune. They are made up of ice, dust, and rocky materials, and they typically have highly elliptical orbits that bring them close to the sun at their closest approach, called perihelion, and far away from the sun at their farthest point, called aphelion.
Comets with long periods take many years, even centuries or millennia, to complete a single orbit around the sun. They are thought to come from the Oort cloud, a region of icy bodies that surrounds the solar system at a distance of up to 100,000 astronomical units (AU) from the sun. As they approach the sun, the heat causes the ice to sublimate, releasing gas and dust that forms the characteristic coma and tail of the comet.
On the other hand, comets with short periods have orbits that last less than 200 years and are believed to originate in the Kuiper Belt, a region of icy bodies beyond Neptune that extends from about 30 to 50 AU from the sun. Some short-period comets have nearly circular orbits that are close to the ecliptic plane, while others have more eccentric orbits that take them high above or below the plane.
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What ocean contains the spot where 0° longitude meets 0° latitude?
The spot where 0° longitude meets 0° latitude is located in the Atlantic Ocean. This point is known as the Prime Meridian.
What is a Prime Meridian?
The Prime Meridian is an imaginary line that runs from the North Pole to the South Pole and is defined as 0° longitude. It is used as a reference line from which longitudes are measured, with longitudes to the east being positive and longitudes to the west being negative. The Prime Meridian is important because it helps to establish a global coordinate system that can be used to accurately describe the location of places on the Earth's surface. The Prime Meridian was first established by the British in 1851 and is now recognized as the standard by which the world measures longitude. It is also known as the Greenwich Meridian because it passes through the Royal Observatory in Greenwich, London, England. The Prime Meridian and the International Date Line (located at 180° longitude) divide the Earth into the Eastern Hemisphere and the Western Hemisphere.
The Prime Meridian is now widely recognized as the standard for measuring longitude, and is used by geographers, navigators, and cartographers around the world. It is also the reference point for the Greenwich Mean Time (GMT), which is the time standard used by many countries around the world, including the United Kingdom.
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Two solid spheres, both of radius 5cm, carry identical total charges of 2μC. Sphere A is a good conductor.Sphere B is an insulator, and its charge is distributed uniformly throughout its volume.How do the magnitudes of the electric fields they separately create at radius 4 cm compare?1. EA > EB = 0 2. EA > EB > 0 3. EA = EB > 04. 0 < EA < EB5. 0 = EA < EB
The magnitude of the electric field E created by a charged sphere at a distance r from its center is given by:
How is electric field created ?E = kQ/r^2
where k is Coulomb's constant, Q is the total charge on the sphere, and r is the distance from the center of the sphere.For sphere A, since it is a good conductor, the charge is distributed uniformly on its surface. So the total charge Q is given by:
Q = 2μC
The electric field E created by sphere A at a distance of 4 cm from its center is:
EA = kQ/r^2 = k(2μC)/(0.04m)^2
For sphere B, since its charge is distributed uniformly throughout its volume, the total charge Q is given by:
Q = (4/3)πr^3ρ
where ρ is the charge density, which is equal to Q/V, where V is the volume of the sphere. Since the charge is distributed uniformly, the charge density is constant. Thus,Q = (4/3)πr^3ρ = (4/3)π(0.05m)^3(2μC/((4/3)π(0.05m)^3)) = 2μC
The electric field E created by sphere B at a distance of 4 cm from its center is:EB = kQ/r^2 = k(2μC)/(0.04m)^2
Therefore, we can see that EA = EB, which means that option 3 is correct: EA = EB > 0.
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2. A woman is pushing a door open. How does the magnitude of the force exerted on
the door by the woman compare to the magnitude of the force exerted on the
woman by the door?
The magnitude of the force exerted on the door by the woman is equal to the magnitude of the force exerted on the woman by the door.
What is Newton's third law of motion?Newton's third law of motion states that "For every action, there is an equal and opposite reaction." This means that when two objects interact, they apply equal and opposite forces on each other. The forces are proportional in magnitude and opposite in direction. This law helps to explain how objects react to forces and how forces result in motion
The door and the woman are interacting forces, and the magnitude of the force that each exerts on the other is equal. However, the direction of the forces is opposite. The woman is pushing the door in one direction, while the door is pushing back on the woman in the opposite direction.
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The african cicada is the world's loudest insect, producing a sound intensity level of 107 db at a distance of 0. 50 m.
The sound intensity level (SIL) of the African cicada is given as 107 dB at a distance of 0.50 m.
What is sound intensity level ?To determine the sound intensity I at the distance r, we can apply the following formula:SIL equals 10 log(I/I0)
where I0, which is designated as 10(-12) W/m2, is the reference sound intensity.If we rearrange this formula to account for I, we obtain:
I equals I0 x 10(SIL/10).
Inputting the values provided yields:I = 2.00 x 10-2 W/m2 x 10(107/10) x (10-12 W/m2)
Therefore, at a distance of 0.50 m, the African cicada's sound intensity is roughly 2.00 x 10–2 W/m2.
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The sound intensity level (SIL) of the African cicada is given as 107 dB at a distance of 0.50 m.
What is sound intensity level ?To determine the sound intensity I at the distance r, we can apply the following formula:
SIL equals 10 log(I/I0)
where I0, which is designated as 10(-12) W/m2, is the reference sound intensity.
If we rearrange this formula to account for I, we obtain:
I = I0 x 10(SIL/10)
Inputting the values provided yields:
[tex]I = 2.00 \times 10^{-2} W/m^2 \times 10(107/10) \times (10^{-12} W/m^2)[/tex]
Therefore, at a distance of 0.50 m, the African cicada's sound intensity is roughly [tex]2.00 \times 10^{-2} W/m^2[/tex].
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What are the basic units of capacitance?
The unit of electrical capacitance is the farad (abbreviated F), named after the English physicist and chemist Michael Faraday.
Electrical capacitance is a property of a circuit that describes its ability to store electrical charge. It is defined as the ratio of the magnitude of electric charge stored on a conductor to the potential difference (voltage) across the conductor. Capacitance is measured in farads (F), which is a very large unit, so capacitors are typically rated in smaller units such as microfarads (µF) or picofarads (pF).
Capacitors are electronic components that are designed to provide capacitance and are commonly used in electronic circuits for a variety of applications, such as filtering, timing, and energy storage. Capacitance is determined by the geometry of the conductors, the distance between them, and the dielectric constant of the material between them. A capacitor consists of two conductors separated by a dielectric material, which can be air, paper, ceramic, or some other non-conductive material.
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The current direction is shown for a current carrying wire in a magnetic field
What direction is the magnetic force?
A. __ Up the page
B. __ Down the page
C. __Right
D. __ Left
E. __ Into the page
F. __ Out of the page
G. __ None or imposible situation
H. __ Cannot be determined
The following angles are given in degrees and fractions of degrees. Rewrite them in degrees, arcminutes, and arcseconds.
A. 24.2 degrees?
B. 1.56 degrees?
C. 0.1 degrees?
D. 0.01 degrees?
E. 0.001 degrees?
60 arcseconds makes 1 arcminute and 60 arcminutes makes 1 degree. This can be converted by multiplying the decimal points by 60.
24.2 degrees = 24 degrees + 0.2× 60 arcminutes= 24 degrees and 12 arcminutes1.56 degrees = 1 degree + 0.56×60 arcminutes = 1 degree + 33.2 arcminutes = 1 degree + 33 arcminutes + 12 arcseconds.0.1 = 0.1×60 = 6 arcminutes0.01 = 0.01×60 = 0.6 arcminutes = 36 arcseconds0.001 degrees = 0.001× 60 arcminutes =0.06 arcminutes = 0.06×60 = 3.6 arcsecondsSo 24.2 degrees = 24 degrees and 12 arcminutes
1.56 degrees = 1 degree 33 arcminutes and 12 arcseconds
0.1 degrees is 6 arcminutes
0.01 degrees = 36 arcseconds
0.001 degrees = 3.6 arcseconds
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4. What is found in the C horizon of a soil profile?
A. Partially weathered rock
B.the subsoil layer
C. topsoil
D. Mostly humus and litter
Rock that has partially weathered can be found in a soil profile's C horizon.
What exactly do soil horizons mean?horizon: an unique layer of soil that is roughly parallel to the land surface and whose characteristics are the result of the interactions between living things and percolating water. The topsoil, for instance, is referred to as the A horizon, while the subsoil B horizons are the name given to horizons.
What is horizon level?"Eye level" and "horizon line" are frequently used interchangeably. The term "horizon line" or "eye level" refers to a physical/visual line dividing sky from land or sea. Whether viewing an object, an interior scene, or an external scene, it refers to the real height of the viewer's eyes.
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Select all the characteristics that apply to an atomic orbital.
A. Identified by a unique combination of four quantum numbers.
B. Defined by the square of the wave function (ψ2).
C. Identified by a unique combination of three quantum numbers.
D. Defined by the wave function (ψ).
E. A shell in an atom containing the valence electrons.
F. A region around the nucleus of an atom where the probability of finding an electron is high.
The characteristics that apply to atomic orbitals is, defined by the square of the wave function (ψ2), defined by the wave function (ψ), a region around the nucleus of an atom where the probability of finding an electron is high. Correct options are B, D, F.
An atomic orbital is a region around the nucleus of an atom where the probability of finding an electron is high. It is defined by the wave function (ψ) and the square of the wave function (ψ2). An orbital is identified by a unique combination of three quantum numbers, and in the case of many-electron atoms, four quantum numbers.
An orbital is not a shell in an atom containing the valence electrons, which is a different concept. Therefore, the characteristics that apply to an atomic orbital are: B, D, and F.
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How cold does it have to be to throw water in the air and have it freeze?
A change in the average kinetic energy of the molecules of an object may best be detected by measuring a change in the object's.
Temperature. The average kinetic energy of the molecules of an object is related to its temperature.
What is kinetic energy?Kinetic energy is the energy of an object in motion. It is the energy associated with the movement of an object or particle, and it is equal to the work done by a force on an object to put it into motion. Kinetic energy is often referred to as the energy of motion and can be found in many forms, from the energy stored in objects such as a car or truck to the energy stored in the movement of electrons within an atom.
As the average kinetic energy of the molecules increases, the temperature of the object increases. Thus, a change in the average kinetic energy of the molecules of an object can be detected by measuring a change in the object's temperature.
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What were used to raise and lower boats along canals?
Answer:
Locks
Explanation:
Locks were used to raise and lower boats. They pump water in and/or out of "locked" chambers to get boats to the same level as the water.
How many crankshaft revolutions in degrees is needed to complete 4-strokes? A. 180 B. 360 C. 90 D. 720.
For a full cycle, four-stroke engines revolve twice. This indicates that 720 crank degrees are required to complete a cycle.
How many crankshaft rotations, measured in degrees, are required to accomplish four 180-degree strokes?The four basic engine strokes—INTAKE, COMPRESSION, POWER, and EXHAUST—are presumably already familiar to you. Each stroke corresponds to 180 crank degrees, or half a crankshaft revolution. Two crankshaft revolutions, or 720°, are equal to 4 cycles times 180°.
How many cycles does a four-stroke engine have?Engines with a four-stroke cycle. An internal combustion engine with a four-stroke cycle uses the four distinct piston strokes of intake, compression, power, and exhaust to complete one operational cycle.
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What is 165 Centimeters in Feet and Inches?
The value is 5.4 in feet and 65 inches
What is a conversion factor?A conversion factor is a ratio of equivalent measurements used to convert a quantity from one unit of measurement to another. Conversion factors are often used in mathematics and science to ensure that quantities are expressed in consistent units, which makes it easier to perform calculations and make comparisons.
For example, consider a situation where you want to convert a quantity from inches to centimeters. The conversion factor for this conversion would be:
1 inch = 2.54 centimeters
This is the conversion factor that we used to obtain then values above.
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How does the existence of atoms explain the conservation of matter? Why do we need to use moles when we try to determine amounts of reactants and products in a reaction?
The existence of atoms explain the conservation of matter that the reaction has to be balanced.
Using moles lets us use smaller numbers in calculations.
What is moles?
Moles, or Avogadro's number, is a unit of measurement used in chemistry. It is the number of atoms, molecules, ions, or other particles in a given amount of a substance. It is equal to 6.022 × 1023 particles per mole.
1) Matter cannot be created and cannot be destroyed. But it can be changed from one form to the another.
Each atom of particular element has constant weight. In a chemical reaction, weight of the all the reactant atoms must be equal to weight of the products. This indicates the atom changes its state from one form to other. So existence of an atom explains the law of conservation of matter.
2) In a chemical reaction to estimate the amount of reactants and products, we have to consider the number of moles and not the weight .
Example
H2 + Cl2 -------------> 2HCl
In this reaction one H2 molecule reacts with one Cl2 molecule and we cannot say that one gram of H2 reacts with one gram of Cl2 molecule. Why because mass of one H2 molecule is 2grams and mass of one Cl2 molecule is 71 grams. So we can't say that 1 gm of H2 reacts with 1 gm of Cl2. Here 2 gm of H2 molecules reacts with 71 gms of Cl2 molecules. To avoid this confusion number of moles is preferable in the estimation of reactants and products.
Therefore, in conservation of matter the reaction has to be balanced and Using moles lets us use smaller numbers in calculations.
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