Answer:
The greater the MASS of a moving object, the GREATER KINETIC ENERGY it has.
Explanation:
Anytime matter is in motion it has kinetic energy. The faster an object moves, the more kinetic energy it has. The more mass an object has, the more kinetic energy it has.
You throw a ball upwards at 6.00 m/s from the top of a building. If the ball hits the ground 4.00 seconds after you throw the ball, what is the height of the building?
The height of the building if a ball is thrown upwards at 6m/s from the top of the building is 102.48m.
How to calculate height?The height of the building in this question can be calculated using one of the equations of motion as follows:
s = ut + ½at²
Where;
s = distance/height u = velocityt = timeAccording to this question, a ball is thrown upwards at 6.00 m/s from the top of a building. If the ball hits the ground 4.00 seconds after you throw the ball, the height can be calculated as follows:
s = 6 × 4 + ½ × 9.81 × 4²
s = 24 + 78.48
s = 102.48m
Therefore, 102.48m is the height of the building.
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which structural fragment would give rise to a characteristic triplet-quartet pattern in the 1h nmr spectrum? true or false?
The statement "A structural fragment with three adjacent non equivalent protons would give rise to a characteristic triplet-quartet pattern in the 1H NMR spectrum" is true.
This is because the three protons are magnetically coupled to each other, resulting in a triplet signal, and they are also coupled to a neighboring proton, resulting in a quartet signal.
The relative intensities of the triplet and quartet signals are in a 1:3 ratio, which is characteristic of this type of structural fragment.
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blunt injury to the eye, such as getting hit with a ball, can displace the orbital contents posteriorly and create a sudden increase in pressure within the orbit that creates a fracture. this type of orbital fracture is commonly referred to as a/an question blank 1 of 1 fracture.
The type of orbital fracture described in the question is commonly referred to as a "blowout fracture."
This occurs when the eye experiences a blunt force trauma, such as being hit with a ball or fist. The force of the impact causes the contents of the eye socket (orbit) to be displaced posteriorly, potentially causing damage to the muscles and nerves that control eye movement. This can also create a sudden increase in pressure within the orbit that can lead to a fracture of the orbital floor, which is the bony structure at the bottom of the eye socket. The term "blowout" refers to the fact that the force of the impact causes the orbit to "blow out" at its weakest point, typically the orbital floor. The type of orbital fracture described in the question is commonly referred to as a "blowout fracture."
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which type of radioactivity has a negative charge?
a. alpharays
b. x-rays
c. beta rays
d.gamma rays
The type of radioactivity that has a negative charge is beta rays.
Are alpha rays negatively charged?Alpha rays consist of particles which have two protons and two neutrons identical to a positively charged helium nucleus. They get attracted towards the negatively charged plate as they possess a charge of +2. They have very high ionization power.
Why beta rays are negatively charged?
Beta radiation has a negative charge because it contains particles similar to an electron. It contains the same mass as an electron, and the mass is lower than proton and neutron masses. Also, each particle contains a single negative charge, making the radiation negatively charged.
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the energy driving the global water cycle is provided by the energy driving the global water cycle is provided by tides. wind. rotation of the earth on its axis. solar energy.
The energy driving the global water cycle is primarily provided by solar energy.
The Sun's energy heats the Earth's surface, causing water to evaporate from the surface and form water vapor in the atmosphere.
This water vapor then condenses to form clouds and precipitation, which returns water to the surface and completes the water cycle. Solar energy is the primary driver of temperature differences across the Earth's surface, which in turn creates atmospheric circulation patterns that distribute heat and moisture. Tides are a result of the gravitational forces of the Moon and Sun on the Earth's oceans, and wind is a result of atmospheric pressure differences caused by uneven heating of the Earth's surface. While tides and wind can affect the distribution and movement of water in the oceans and atmosphere, they are not the primary source of energy driving the global water cycle.
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how fast (in km/h ) must a plane fly along the earth's equator so that the sun stands still relative to the passengers? the radius of the earth is 6400 km .
To appear as though the sun is stationary with respect to the passengers, the plane must travel at a speed of about 1670 km/h along the equator of the planet.
How fast must the plane fly in order to make the sun appear to be stationary in the sky? is the query. This is the same as the plane moving in such a way that it cancels out the Earth's axis rotation, which causes the sun to appear to move across the sky.
At the equator, the Earth's circumference is around 40,000 km, and it rotates once every 24 hours. This indicates that the linear speed of a place on the equator of the Earth is roughly 1670 km per hour. So, in order to make the sun appear, the plane must fly at this speed in the same direction as the Earth's rotation, or to the east.
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a magnetic field passes through a stationary wire loop, and its magnitude changes in time according to the graph in the drawing. the direction of the field remains constant, however. there are three equal time intervals indicated in the graph: 0 - 3.0 s, 3.0 - 6.0 s, and 6.0 - 9.0 s. (a) is the induced emf equal to zero during any of the intervals? what evidence from the graph supports your claim? (b) during which interval is the magnitude of the induced emf the largest? what evidence from the graph supports your claim? (c) if the direction of the current induced during the first interval is clockwise, what is the direction during the third interval?
The induced EMF is-0.45V and the induced current for the first and third intervals is -0.9A.
the slope of B vs t gives the dB/dt
from the relation emf = NAdB/dt
a) from 0 to 3 s
dB/dt = 0.4-0/(3-0) = 0.133 T/s
emf = 48*0.14*0.133 = 0.894 V
for 3 to 6 sec
dB/dt = 0 (slope is zero)
emf = 0
for 6 to 9 sec
dB/dt = (0.2-0.4)/(9-6) = -0.067 T/s
emf = 48*0.14(-0.067) = -0.45 V
b) if R = 0.5 ohm
current i = 0.894/0.5 = 1.788 A
for 6 to 9 sec
i = -0.45/0.5 = -0.9 A
Induced EMF (Electromotive Force) is the voltage or potential difference that is generated in a conductor when it is exposed to a changing magnetic field. This is due to Faraday’s Law of Electromagnetic Induction, which states that a time-varying magnetic field induces an electric field in a conductor.Induced EMF is the basis for the operation of many electrical devices such as generators and transformers.
Generators convert mechanical energy into electrical energy through the use of induced EMF, while transformers use it to change the voltage and current levels of an AC power system.When a conductor is placed in a magnetic field and the field strength or direction changes, it causes the magnetic flux through the conductor to change.
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Complete Question: -
A magnetic field passes through a stationary wire loop, and its magnitude changes in time according to the graph in the drawing. The direction of the field remains constant, however. There are three equal time intervals indicated in the graph: 0 – 3.0 s, 3.0 – 6.0 s, and 6.0 – 9.0 s. The loop consists of 48 turns of wire and has an area of 0.14 m2. The magnetic field is oriented parallel to the normal to loop. (a) For each interval, determine the induced emf. (b) The wire has a resistance of 0.50 Ω. Determine the induced current for the first and third intervals.
Hi could someone help me answer these questions
Two like masses are attracted to one another by gravitational forces.
Is the force of gravitation between two masses always alluring?
Any two bodies in our world will gravitationally attract one another, according to Newton's law of gravitation. Therefore, the gravitational attraction between two masses is constant.
The gravitational force created by one mass would be better represented by the electromagnetic field of a negative charge. This is thus because both the field representation of a negative charge and the gravitational force between two masses are attractive forces. When placed in an electric field, a positive charge will often move in the direction of the electric field lines, while a negative charge would typically move in the opposite way.
When a positive charge and a negative charge interact, their forces move from the positive to the negative charge in the same manner. The electric field and consequent forces produced by two electrical charges of opposing polarity cause opposite charges to attract one another. Compared to gravitational forces, electrostatic forces are substantially stronger. This is due to the fact that gravity is dependent on mass, and since atoms have such little masses, there is almost no gravitational pull between them. The electrostatic force, however, is greater when there are charges present.
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Normally, materials are electrically neutral because there are ____.
more positively charged particles than negatively charged particles
more negatively charged particles than positively charged particles
equal numbers of positively charged particles and neutrally charged particles
equal numbers of positively charged particles and negatively charged particles
Normally, materials are electrically neutral because there are equal numbers of positively charged particles and negatively charged particles, hence option D is correct.
What is an electrically neutral particle?Since there are exactly as many electrons in an atom as there are protons, the positive and negative charges "balance out," leaving atoms electrically neutral.
Neutrons are found in the nuclei of all atoms, with the exception of the majority of hydrogen atoms. Neutrons are electrically neutral, as opposed to electrically charged protons and electrons.
Therefore, due to having an equal number of positively charged particles and negatively charged particles materials are electrically neutral.
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Imagine a planet moving in a perfectly circular orbit around the Sun and, because the orbit is circular, the planet is moving at a constant speed. Is this planet experiencing acceleration? Explain.
The centripetal force required for a planet to revolve in a circular motion around the sun is provided by the sun's gravitational pull on the planet. The round motion of the planet is caused by the centripetal force, which is always pointed in the direction of the sun's center at every point of its course.
What is the cause planet experiencing acceleration?The force of gravity accelerates items as they descend to the ground. Velocity is a measure of the speed and direction of motion, and acceleration is a change in velocity. The longer an object is in free fall, the faster it descends towards the ground due to gravity.
A planet needs to accelerate towards the circle's centre in order to travel in a curved route. Centripetal acceleration, which is provided by the gravitational attraction of the sun and the planet, is what causes this.
Therefore, yes, change in direction is acceleration.
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what do we see when white light passes through a cool cloud of gas? (a) visible light (b) infrared light (c) thermal radiation (d) an absorption line spectrum (e) an emission line spectrum 3 pt: in no more than one sentence, explain how this relates to the absorption features seen in the solar spectrum.
We observe an absorption line spectrum when white light travels through a cold cloud of gas.
What do you observe when a white light traverses a chilly gas cloud?The atmosphere's gas scatters some of the light at particular wavelengths, resulting in darker bands. When common materials were heated, light waves that later came to be known as "spectral lines" were produced and recorded.
What kind of spectra are created when light travels through a gas cloud?Spectrum of Absorption: Part of the starlight that travels through a cloud of gas is absorbed while some of it is transmitted through the gas. T Depending on which elements are involved, different light wavelengths are absorbed.
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a heavy box is dropped on a spring, and the maximum compression of the spring is measured before the spring pushes the box back up. if the box is dropped from a greater height, what will happen to the maximum compression of the spring?
When the spring reaches its equilibrium length, or the point at which all the energy stored in the spring is transferred to kinetic energy, the block moves at its fastest speed. Since the object is at rest when it starts, Ki = 0.
What is the maximum compression of the spring?When a spring is compressed or extended to a length that differs by an amount x from its equilibrium length, it produces a force F = -kx that pushes it back towards its equilibrium position. A spring's force works as a restoring force, bringing the spring back to its equilibrium length.
Simply divide the weight you will be placing on your spring by the amount of movement or compression you anticipate from your spring as a result of that load.
Therefore, When the box is dropped from a larger height, the spring will compress further since the box will have more energy. enabling it to compress the spring more forcefully.
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An object has a force of 10 newtons from the right and 17 newtons from the left. Once the object starts moving toward the right, an additional force of 2 newtons is applied from the right. What can you conclude about the direction of motion of the object after the application of the additional force?
The conclusion about the direction of motion of the object after the application of the additional force is the object will not move in either the left or right direction, because the net force will be zero.
What is force?In physics, a force is an influence that can change the motion of an object.
The object initially encountered unbalanced forces of 10 N from the right and 17 N from the left, resulting in a net force of 7 Netwons, which caused the object to travel in the direction of the right.
The object ceased to move in either direction when a force of 7 Newtons was added from the right, as the net force decreased to zero, creating balanced forces from both directions.
Therefore, the object will continue to move with a constant velocity.
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you (northern hemisphere observers) observe a star rising due east. when this star reaches its highest position above the horizon, where will it be?
When a star is rising straight up in the east, it will be high in the south when it is at its peak point over the horizon.
In both hemispheres, the star ascends in the east and sets in the west. This results from the rotation of the earth. Also, they circle the north celestial pole in a clockwise way whereas the south celestial pole is in a counterclockwise direction.
Nonetheless, the south celestial pole will be visible above the southern horizon at an angle proportional to your latitude. Toward the northern sky, rising stars in the east will go higher and to the left. As you travel farther south, the celestial equator will likewise pass across the northern sky, getting progressively lower.
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the work function (binding energy) is the energy that must be supplied to cause the release of an electron from a photoelectric material. the corresponding photon frequency is the threshold frequency. the higher the energy of the incident light, the more kinetic energy the electrons have in moving away from the surface. the work function for nickel (used in rechargeable batteries) is equivalent to 483.4 kj/mol photons. use this information to calculate the energy, wavelength, and velocity of ejected electrons. what is the kinetic energy, in joules, of each ejected electron when light of 225.0 nm strikes the metal surface?
The kinetic energy of each ejected electron is 3.31 x 10⁻⁴² J/electron, and its velocity is 8.51 x 10³ m/s.
What is work function?Minimum thermodynamic work needed to remove electron from solid to the point in vacuum immediately outside the solid surface is called work function.
E = hf
hc/λ = hf + Φ
K.E. = hf - Φ
E is energy of a photon, h is Planck's constant, f is frequency of the photon, c is speed of light, λ is wavelength of the photon, Φ is work function, K.E. is kinetic energy of ejected electron.
E = hf = Φ + hc/λ
hf = Φ + hc/λ
f = (Φ + hc/λ) / h
E = hc/λ = h((Φ + hc/λ) / h) = Φh/h + hc/λh
E = Φ + hc/λ
Given, Φ = 483.4 kJ/mol photons = (483.4 kJ/mol photons) / (6.022 x 10²³ photons/mol) = 8.03 x 10⁻¹⁹ J/photon
c = 3.00 x 10⁸ m/s h = 6.626 x 10⁻³⁴ J·s λ = 225.0 nm = 225.0 x 10⁻⁹ m
So, E = Φ + hc/λ = (8.03 x 10⁻¹⁹ J/photon) + (6.626 x 10⁻³⁴ J·s x 3.00 x 10⁸ m/s) / (225.0 x 10⁻⁹ m) = 2.79 x 10⁻¹⁸ J/photon
K.E. = hf - Φ = E - Φ
K.E. = (2.79 x 10⁻¹⁸ J/photon) - (8.03 x 10⁻¹⁹ J/photon) = 1.99 x 10⁻¹⁸ J/photon
K.E. = (1.99 x 10⁻¹⁸ J/photon) / (6.022 x 10²³ photons/mol) = 3.31 x 10⁻⁴² J/electron
K.E. = 1/2 mv²
m = 9.109 x 10⁻³¹ kg
K.E. = 3.31 x 10⁻⁴² J/electron
3.31 x 10⁻⁴² J/electron = 1/2 (9.109 x 10⁻³¹ kg) v²
v² = (2 x 3.31 x 10⁻⁴² J/electron) / (9.109 x 10⁻³¹ kg)
v^2 = 7.26 x 10⁷ m²/s²
v = √(7.26 x 10⁷m²/s²) = 8.51 x 10³ m/s
Therefore, the kinetic energy of each ejected electron is 3.31 x 10⁻⁴²J/electron, and its velocity is 8.51 x 10³ m/s.
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if you double the length of a cylindrical wire and reduce its diameter by half, the resistance of the wire will be
The resistance of the wire will increase by a factor of 8.
When the length of a wire is doubled, its resistance also doubles because resistance is directly proportional to the length. On the other hand, when the diameter of the wire is halved, the cross-sectional area of the wire reduces by a factor of 4 (πr^2 -> π(r/2)^2). As a result, the resistance decreases by a factor of 1/4.
So, when both changes are made, the resistance of the wire increases by a factor of 8 (2 x 4). This is because the effect of doubling the length is greater than the effect of halving the diameter. Thus, the net effect is an increase in resistance. This relationship between resistance, length, and cross-sectional area is described by the formula for resistance, which is R = ρL/A, where R is the resistance, ρ is the resistivity of the material, L is the length of the wire, and A is its cross-sectional area.
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if the earth goes around the sun, why is the ecliptic not lined up with the celestial equator? the ecliptic is a circle fixed in the sky, but the celestial equator is different for observers at different latitudes the earth's axis is tilted by about 23 degrees from the vertical the earth's orbit is not a circle but an ellipse the land mass of the earth is more concentrated in the northern hemisphere the pull of the other planets makes the earth wobble significantly in the course of a year additional materials
The tilt of Earth's axis causes the ecliptic to intersect the celestial equator at two points, creating the seasons.
The ecliptic is the unmistakable method of the Sun on the heavenly circle as seen from Earth. It isn't concurred with the magnificent equator, which is the projection of the World's equator onto the heavenly circle, considering the way that the World's center is moved by around 23.5 degrees relative with the plane of its circle around the Sun. Consequently, over the range of a year, the World's Northern and Southern Parts of the globe then again slant towards and away from the Sun, causing the seasons. The ecliptic meets the eminent equator at two spots, known as the equinoxes, where the length of every day of the week is generally same. The inclination of the World's turn, got together with the World's circle around the Sun, prompts the changing seasons and the moving spot of the ecliptic near with the superb equator.
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one revolution per hour is how many rad/s? if the object in question has a radius of 4m, what is the linear velocity at a point on the edge?
The linear velocity at a point on the edge of the object is π/450 meters per second. One revolution per hour is equivalent to 1/3600 revolutions per second (since there are 3600 seconds in an hour).
To convert revolutions per second to radians per second, we need to multiply by 2π since there are 2π radians in one revolution. So, 1/3600 revolutions per second is equal to (1/3600) * 2π radians per second, which simplifies to π/1800 radians per second. To find the linear velocity at a point on the object's edge, we can use the formula: v = ωr; where v is the linear velocity, ω is the angular velocity (in radians per second), and r is the radius of the object.
In this case, the radius is 4m, and we just found that the angular velocity is π/1800 radians per second. So, we can plug these values into the formula to get: v = (π/1800) * 4
Simplifying this expression gives: v = π/450 m/s
So, the linear velocity at a point on the object's edge is π/450 meters per second.
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assume a conducting sphere of radius 6.5 cm is connected to a 1000 v power supply. what is the charge density on the surface of the sphere in c/m2 ?
The required charge density on the conducting sphere is calculated to be 136.23 × 10⁻⁹C/m²
The radius of the conducting sphere is given as 6.5 cm = 0.065 m
The voltage of the power supply is 1000 v.
The expression to calculate the surface area of the sphere is known to be,
A = 4 π r²
Putting the values, we have,
A = 4 π (0.065)² = 0.053 m²
The relation to find out charge on the sphere is known to be,
Q = r V/k
where,
r is radius of sphere
k is Coulomb's constant (9 × 10⁹ N m²/C)
V is voltage
Entering the numbers, we have,
Q = r V/k = 0.065(1000)/(9 × 10⁹) = 7.22 × 10⁻⁹ C
Charge density is given by the expression,
ρ = Q/A = 7.22 × 10⁻⁹/0.053 = 136.23 × 10⁻⁹ C/m²
Thus, the charge density is calculated to be 136.23 × 10⁻⁹C/m².
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what is required for the maximum high tide to occur?
Every new and full moon, when the sun, moon, and earth are in alignment, spring tides occur. When lunar and solar tides align, they reinforce one another and create a larger overall tidal.
What is the condition are required for high tide to occur?The Earth's tides are significantly influenced by the elliptical orbits of the moon around the planet and the planet around the sun. The largest spring tides happen when the moon is close to perigee and the sun is close to perihelion.
Every month, at perigee, when the moon is closest to Earth, tidal-generating forces are stronger than usual, resulting in tide ranges that are higher than typical.
Therefore, When the sun, earth, and moon are at a straight angle and the moon is in its first or third quarter, neap tides happen.
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a projectile is fired at an angle upward from the horizontal such that the initial horizontal and vertical components of its velocity are both non-zero. which of the following statements in true? ignore air resistance. there is no wind. a. at the highest point in the motion, the vertical component of the acceleration is zero. b. the horizontal component of the velocity decreases over time. c. at the highest point in the motion, the horizontal component of the velocity is zero. d. throughout the motion, the acceleration is always perpendicular to the velocity. e. at the highest point in the motion, the speed of the projectile is the smallest.
The statement C is True, a projectile is fired at an angle upward from the horizontal such that the initial horizontal and vertical components of its velocity are both non-zero at the highest point in the motion, the horizontal component of the velocity is zero.
A projectile is any object that is thrown or launched into the air and follows a path determined by the forces acting upon it, such as gravity and air resistance. The motion of a projectile is characterized by two components: horizontal motion and vertical motion. The horizontal motion is constant and is not affected by gravity, while the vertical motion is determined by the acceleration due to gravity.
Projectile motion can be analyzed using mathematical equations and is important in fields such as physics, engineering, and sports. For example, in sports such as basketball and football, the trajectory of a ball being thrown or kicked is a projectile. In engineering, projectile motion is used to design rockets and missiles that are launched into space or aimed at specific targets.
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9. a thin circular sheet of copper has a diameter of 30.0 cm and a thickness of 1 mm. find the weight of the sheet in newtons.
The weight of the copper sheet is approximately 6.21 newtons.
What are Newtons?
Newtons are a unit of measurement used to quantify force in the International System of Units (SI). One newton is defined as the amount of force required to accelerate a mass of one kilogram at a rate of one meter per second squared.
In simpler terms, if a force is applied of one newton to an object with a mass of one kilogram, the object will accelerate at a rate of one meter per second squared.
The symbol for newton is N, and it is named after Sir Isaac Newton, the famous physicist and mathematician who formulated the laws of motion. Newtons are commonly used in physics, engineering, and other sciences to describe the amount of force acting on an object.
To find the weight of the copper sheet, one has to know its mass and the acceleration due to gravity, which is approximately 9.81 m/s^2.
The first step is to calculate the volume of the copper sheet:The radius of the sheet is half the diameter, so r = 15 cmThe thickness of the sheet is 1 mm = 0.1 cmThe volume of the sheet can be found by calculating the volume of the cylinder with height equal to the thickness of the sheet: V = πr^2h = π(15 cm)^2(0.1 cm) = 70.69 cm^3
Next, calculate the mass of the copper sheet, which can be found by multiplying its volume by its density. The density of copper is approximately 8.96 g/cm^3:
Mass = density x volume = 8.96 g/cm^3 x 70.69 cm^3 = 633.56 gFinally, find the weight of the copper sheet by multiplying its mass by the acceleration due to gravity:
Weight = mass x acceleration due to gravity = 633.56 g x 9.81 m/s^2 = 6.21 NTherefore, the weight of the copper sheet is approximately 6.21 newtons.
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what is the mass in pounds of a human who weighs 51.35 kg?
A human who weighs 51.35 kg has a mass of 113.2 lb. The conversion formula for kilograms to pounds is in the explanation below.
The mass of a human who weighs 51.35 kilograms can be converted to pounds using the following formula:
1 kg = 2.204622 pounds.
Therefore, the mass in pounds of a human who weighs 51.35 kg can be calculated as follows:
Mass in pounds = 51.35 kg * 2.205 pounds/kg
= 113.2073397 pounds
So, the mass in pounds of a human who weighs 51.35 kg is approximately 113.2073397 pounds. That number then can be rounded up to 113.2 lb.
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the national institute of health is testing sensors which measure the energy felt by goalkeepers when blocking soccer balls coming at them and the velocity of soccer balls. one sensor measuring velocity is inside a 16 ounce soccer ball, which after being rolled at 0.5 m/s is kicked by a player upon which it is found to have an average velocity of 31 m/s. the goalkeeper blocks the ball, which then rolls back towards the player at a velocity of 2.25 m/s. how much energy in joules should the sensor say the goalkeeper absorbed, not accounting for wind and drag? (
The sensor should say that the goalkeeper absorbed about 216.998 J of energy when blocking the soccer ball, not accounting for wind and drag.
To calculate the energy absorbed by the goalkeeper, we can use the law of conservation of energy, which states that the initial energy of the ball before the kick is equal to the sum of the kinetic and potential energy after the kick and after the ball is blocked by the goalkeeper. We can assume that the ball is initially at rest before the kick, so the initial energy is zero.
The final kinetic energy of the ball after the kick can be calculated as:
[tex]KE1 = (1/2)mv1^2[/tex]
where m is the mass of the ball (converted to kg) and v1 is the velocity of the ball after the kick. Substituting the given values, we get:
[tex]KE1 = (1/2) (0.454 kg) (31 m/s)^2[/tex] = 218.147 J
The potential energy of the ball at this point is also zero since it is on the ground.
When the goalkeeper blocks the ball, the kinetic energy of the ball is transferred to the goalkeeper, so the energy absorbed by the goalkeeper is equal to the kinetic energy of the ball before it was blocked. The final kinetic energy of the ball can be calculated as:
[tex]KE2 = (1/2)mv2^2[/tex]
where v2 is the velocity of the ball after it is blocked and rolls back toward the player. Substituting the given values, we get:
[tex]KE2 = (1/2) (0.454 kg) (2.25 m/s)^2[/tex] = 1.149 J
The energy absorbed by the goalkeeper is then the difference between the initial kinetic energy of the ball and the final kinetic energy of the ball:
Energy absorbed = KE1 - KE2 = 218.147 J -1.149 J = 216.998 J
Therefore, the sensor should say that the goalkeeper absorbed about 216.998 J of energy when blocking the soccer ball, not accounting for wind and drag.
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light is traveling from plastic into air. at the interface some of the light is reflected. how does the reflected wave compare to the incident wave?
When light travels from plastic into the air, some of the light is reflected at the interface between the two media. The reflected wave is characterized by a few key differences compared to the incident wave.
Firstly, the reflected wave is inverted with respect to the incident wave, meaning that it is flipped upside down.
Furthermore, the abundance of the reflected wave is by and large more modest than that of the occurrence wave.
This is because some of the energy of the wave is absorbed or scattered as it interacts with the interface between the plastic and air.
Lastly, the reflected wave is shifted in phase compared to the incident wave. The amount of phase shift depends on the angle of incidence and the refractive indices of the two media.
In summary, the reflected wave that occurs when light travels from plastic into the air is inverted, has a smaller amplitude, and is shifted in phase compared to the incident wave.
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If there is a positive and a negative charge near each other and they are moved farther apart, work must be done, and the result is storing electric potential energy. what would be a good analogy to this process in the case of gravity? explain your reasoning.
A good analogy to this process in the case of gravity is throwing a bowling ball up in the air.
What is analogy?Analogy is a figure of speech used to compare two different things that have similar characteristics in order to explain a concept or idea. It is a form of extended metaphor and can be used to draw a comparison between two objects, phenomena, or events to help explain something unfamiliar by associating it with something more familiar.
Work must be done by the person throwing the bowling ball, and as a result, potential gravitational energy is stored in the ball. As it goes higher and higher in the air, it has more potential energy, as it is farther away from the ground. Just like two charges that are moved farther apart storing electric potential energy, when a bowling ball is thrown up in the air, it gains gravitational potential energy due to being further away from the ground.
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does the missing electric field vector on the front face point in or out?
Without additional context, it is difficult to determine the direction of the missing electric field vector on the front face. The direction of the electric field vector depends on the charge distribution and the boundary conditions of the problem
What is Electric Field?
An electric field is a region of space around an electric charge or group of charges where other charges experience a force. The electric field is a vector field, which means that at every point in space, it has both a magnitude and a direction. The strength of the electric field at a point is determined by the magnitude and distribution of the charges that create the field.
An electric field can be visualized by imagining a small positive test charge placed at a point in space, and then observing the direction and magnitude of the force that the test charge experiences due to the presence of other charges in the system. The direction of the electric field at a point is defined as the direction of the force that a positive test charge would experience if placed at that point.
In general, the direction of the electric field vector at a given point is defined as the direction of the force that a positive test charge would experience if placed at that point. If the charge distribution on the front face is such that it would attract a positive test charge, then the electric field vector would point inward toward the face. Conversely, if the charge distribution would repel a positive test charge, then the electric field vector would point outward away from the face.
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Question 3d
(d) The pressure inside an aircraft is usually kept at around 80 kPa.
The doors to the aircraft have an area of around 2.0 m².
Calculate the resultant force acting on the door at an altitude of 10 km.
[3 marks]
The resultant force acting on the door at an altitude of 10 km is 115.2 kilonewtons (kN).
What is the resultant force acting on the door?The pressure inside an aircraft is kept at 80 kilopascals (kPa) and the doors have an area of 2 square meters (m²).
The atmospheric pressure at an altitude of 10 kilometers (km) is much lower. To calculate the difference in pressure, we need to know the atmospheric pressure at that altitude.
At an altitude of 10 km, the atmospheric pressure is around 22.4 kPa, which is much lower than the pressure inside the aircraft.
The difference in pressure can be calculated as 80 kPa - 22.4 kPa = 57.6 kPa.
The force acting on the door can be calculated using the equation:
Force = Pressure x Area
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a charged particle is moving in a magnetic field. what is the direction of the force on the particle due to the magnetic field?
The direction of the force on the particle due to the magnetic field a charged particle is moving is perpendicular to the plane.
Glamorous fields ply forces on moving charges. This force is one of the most introductory known. The direction of the glamorous force on a moving charge is vertical to the aeroplane formed by v and B and follows right hand rule – 1( RHR- 1). The magnitude of the force is commensurable to q, v, B, and the sine of the angle between v andB.
still, or is zero, the glamorous force will be zero, If the flyspeck haste happens to be aligned resemblant to the glamorous field. This differs from the case of an electric field, where the flyspeck haste has no bearing, on any given moment, on the magnitude or direction of the electric force.
The angle dependence of the glamorous field also causes charged patches to move vertical to the glamorous field lines in a indirect or spiral fashion, while a flyspeck in an electric field will move in a straight line along an electric field line.
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assume steady-state, one-dimensional heat conduction through the axisymmetric shape. assuming constant properties and no internal heat generation, sketch the temperature distribution?
The actual temperature distribution will depend on the specific geometry and material properties of the axisymmetric shape
Based on the given assumptions of steady-state, one-dimensional heat conduction, constant properties, and no internal heat generation, we can expect the temperature distribution to have the following characteristics:
The temperature will vary only in the radial direction, perpendicular to the axisymmetric shape.
The temperature gradient in the radial direction will be constant, assuming that the thermal conductivity of the material is also constant
The temperature distribution will be symmetric about the axis of the shape.
The temperature at the center of the shape will be higher than the temperature at the outer surface.
Based on these characteristics, we can sketch the temperature distribution as follows:
-------------
/ \
/ \
/ \
| |
| T1 |
| |
\ /
\ /
\ /
-------------
R1
In this sketch, T1 is the temperature at the center of the shape, which is the highest temperature. R1 is the outer radius of the shape, and the temperature at the outer surface is assumed to be the lowest temperature. The temperature decreases linearly with increasing radial distance, and the temperature gradient is constant throughout the shape.
This sketch provides a general idea of what the temperature distribution might look like under the given assumptions.
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