The temperature of the gas is now increased to 430 K and the volume is increased to 4.8 atm is the final pressure of the gas.
Option A is correct .
Joined gas regulation is the mix of Boyle's regulation, Charles' regulation and Gay-Lussac's regulation. The equation for combined gases is,
P₁V₁ / T₁ = P₂V₂/ T₂
P₁ = initial pressure of gas = 5.6 atm
P₂ = final pressure of gas = ?
V₁ = initial volume of gas = 3.9 L
V₂ = final volume of gas = 5.9 L
T₁ = initial temperature of gas = 330 K
T₂ = final temperature of gas = 430 K
Putting all the values in the equation we get ,
5.6 × 3.9 / 330 = P₂ × 5.9 / 430
P₂ = 4.8 atm
The final pressure of the gas is 4.8 atm
Final pressure :After reattachment, the final pressure is usually the one that can be calculated using inviscid theory, but in some cases, the pressure goes above the inviscid value.
Initial temperature :The average temperature of the contents of the coldest container to be processed at the beginning of the thermal processing cycle is referred to as the initial temperature. This temperature is determined after the filled and sealed container has been thoroughly stirred or shaken.
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onboard rockets on the first satellite are fired, and eventually the first satellite is moved into the same circular orbit as the second. how much work was done by the rocket engines?
The work done by the rocket engines in this case is zero, as there is no change in the mechanical energy of the satellite.
To calculate the work done by the rocket engines when the first satellite is moved into the same circular orbit as the second satellite, we need to consider the energy changes involved in the process. The work done by the rocket engines is equal to the change in the satellite's mechanical energy, which consists of both kinetic energy and potential energy.
In this scenario, the initial and final orbits of both satellites are the same, which means they have the same radius and velocity. Since the kinetic energy and potential energy are dependent on the velocity and radius, there will be no change in these values between the initial and final states.
Therefore, the work done by the rocket engines in this case is zero, as there is no change in the mechanical energy of the satellite. The rockets only need to provide the force necessary to maintain the satellite's circular motion in the new orbit, without changing its total energy.
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What net force must act on the bowl of fruit to make it accelerate to the right at a rate of 4. 4 m/s2
The bowl of fruit has a mass of 2.2 kg.
Hence the correct option is A.
We can use the formula F = ma to calculate the net force required to make the bowl of fruit accelerate
F = m * a
F = 2.2 kg * 4.4 m/[tex]s^{2}[/tex]
F = 9.68 N
Therefore, the net force required to make the bowl of fruit accelerate to the right at a rate of 4.4 m/[tex]s^{2}[/tex] is 9.68 N to the right.
Hence the correct option is A.
The question is incomplete and the complete question is '' The bowl of fruit has a mass of 2.2 kg. What net force must act on the bowl of fruit to make it accelerate to the right at a rate of 4.4 m/[tex]s^{2}[/tex]? (Hint: Use F = ma.)
A. F = 9.68 N right
B. F = 9.68 N left
C. F = 6.60 N left
D. F= 6.60 N right ''.
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a 2.2 g spider is dangling at the end of a silk thread. you can make the spider bounce up and down on the thread by tapping lightly on his feet with a pencil. you soon discover that you can give the spider the largest amplitude on his little bungee cord if you tap exactly once every second.
The period of oscillation of a spider hanging on a silk thread, tapped once every second, is one second.
What is the period of oscillation of a spider hanging on a silk thread when tapped once every second?
The time it takes for one complete up-and-down motion of the spider on the silk thread is called the period of oscillation, denoted by T. We know from the problem statement that the spider has the largest amplitude on its bungee cord when tapped exactly once every second.
If the tapping is done exactly once every second, then the spider is experiencing a periodic force with a frequency of 1 Hz. In this case, the period of oscillation T is equal to the reciprocal of the frequency, which is:
T = 1/f = 1/1 Hz = 1 second
Therefore, the spider completes one full oscillation (i.e., up-and-down motion) every second.
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A ball rolling across a smooth floor gradually slows to a stop. Why?
Due to friction, the ball gradually loses kinetic energy.
The ball disobeys the law of conservation of momentum.
The law of conservation of momentum does not apply in this situation.
It applies to collisions between objects, not to objects that interact with the environment. The ball is slowing down due to friction with the floor and air resistance.
What is friction?Friction is a force that opposes the motion of an object when it is in contact with another surface. It occurs when two objects rub against each other. Friction is a result of the microscopic irregularities of the two surfaces coming in contact with each other. The magnitude of the frictional force depends on the type of material, the surface area of contact, the pressure between them, and the speed at which the two objects are moving. Friction is a useful force as it prevents objects from slipping and sliding.
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In a typical automobile engine, the mixture of gasoline and air in a cylinder iscompressed from 1.0 atm to 9.5 atm. If the uncompressed volume of the cylinder is410 mL, what is the volume in mL when the mixture is fully compressed?
In a typical automobile engine, the mixture of gasoline and air is compressed from 1.0 atm to 9.5 atm in a cylinder. If the uncompressed volume of the cylinder is 410 mL, the volume in mL when the mixture is fully compressed can be calculated using Boyle's Law, which states that the pressure and volume of a gas are inversely proportional at a constant temperature.
We can use the formula P1V1 = P2V2, where P1 and V1 are the initial pressure and volume, and P2 and V2 are the final pressure and volume. Substituting the values given in the problem, we get:
1.0 atm x 410 mL = 9.5 atm x V2
Solving for V2, we get:
V2 = (1.0 atm x 410 mL) / 9.5 atm = 44 mL
Therefore, the volume of the mixture when fully compressed is 44 mL. This means that the volume of the gas is significantly reduced when it is compressed at high pressure, which increases the temperature and causes it to combust and power the engine.
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When will a person be given a proposed license suspension?
A person may be given a proposed license suspension after committing a traffic violation or being involved in a serious driving offense. The specifics of the situation will depend on the laws and regulations in the particular state or jurisdiction.
For example, in some places, a license may be suspended immediately for driving under the influence (DUI) or causing a serious accident.
In other cases, a person may receive a warning or a citation before a proposed suspension is issued. In general, a proposed license suspension may be given to a person after they have been notified of the violation and given an opportunity to respond.
This may involve a hearing or other legal process in which the person can contest the proposed suspension or provide evidence to support their case. Ultimately, the decision to suspend a license will be made by the relevant authorities based on the facts and circumstances of the case.
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(common pi terms) standard air with velocity v flows past an airfoil having a chord length, b, of 5.54 ft. pvb (a) determine the reynolds number, -, for v
The Reynolds number for the flow of standard air past an airfoil with a chord length of 5.54 ft and an angle of attack of A is approximately 4361468.7.
The Reynolds number, Re, is a dimensionless number that is used to determine whether the flow of a fluid is laminar or turbulent. It is defined as:
[tex]Re = V^2 / u[/tex]
Reynolds number for the flow of standard air past an airfoil, we need to first determine the density of the air. The density of air can be approximated as:
ρ = 1.225 kg/m
Next, we need to calculate the velocity of the air. The velocity of the air can be determined using the chord length and the angle of attack of the airfoil.
The chord length, b, of the airfoil is given as 5.54 ft. The angle of attack, α, of the airfoil can be calculated as:
α = arctan(tan(A) / 0.5)
Using the chord length and the angle of attack, we can calculate the velocity of the air as follows:
V = b / 2 * tan(α)
V = 5.54 ft / 2 * tan(arctan(tan(A) / 0.5))
Using the fact that tan(arctan(tan(A) / 0.5)) = tan(A), we can simplify the expression for V as follows:
V = 2.55 ft * tan(A) / tan(A)
= 2.55 ft * A
Re = ρ *[tex]V^2[/tex] / μ
= [tex]1.225 kg/m * (2.55 ft * A)^2 / (0.0224 N/m)[/tex]
= 4361468.7
Therefore, the Reynolds number for the flow of standard air past an airfoil with a chord length of 5.54 ft and an angle of attack of A is approximately 4361468.7.
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2. Would the sound produced
by the Finse ice orchestra reach
the ears of the audience faster
or slower than the same sound
produced by an orchestra in a
warm auditorium? Explain your
answer.
Answer:Slower
Explanation:
First things first, let's talk about what sound is. Sound is a type of energy that travels through air, water, and other materials in waves. These waves cause changes in pressure, which we hear as sound.
Now, let's get to the heart of the matter – would the sound produced by the Finse ice orchestra reach the audience faster or slower than the same sound produced by an orchestra in a warm auditorium? The answer is that it would reach the audience faster in the warm auditorium.
This is because the speed of sound depends on the temperature and density of the medium it's traveling through. In general, sound travels faster in warmer materials and slower in cooler materials. In an auditorium, the air is warm and less dense, which means that sound can travel faster through it. On the other hand, in an icy environment like the Finse ice orchestra, the air is colder and denser, which slows down the speed of sound.
So, in summary, the sound produced by the Finse ice orchestra would reach the audience slower than the same sound produced by an orchestra in a warm auditorium
A magnetic field exerts a force on a charged particle: A.always B.never C.if the particle is moving across the field lines D.if the particle is moving along the field lines E.if the particle is at rest
A magnetic field exerts a force on a charged particle: Always. A magnetic field exerts a force on a charged particle irrespective of its motion.
What is magnetic field?Magnetic field is the region around a magnet or electric current where a magnetic force is exerted. It is an invisible force field that is created by the motion of charged particles like electrons and protons. Magnetic fields are measured in Tesla (T) or gauss (G). The Earth has a magnetic field that helps to protect it from the Sun's charged particles. Magnetic fields are also used in technology such as electric motors, generators, and transformers. They are also used in medical diagnosis and treatment. Magnetic fields can be altered and manipulated by applying electric currents or magnetic materials, allowing them to be used in a variety of applications such as data storage and magnetic levitation.
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Liquid water at 0ºC has to give up energy in order to become ice at 0ºC.
True or False
The correct answer to the given question is True.
Water at 0°C is still in the liquid phase and possesses some amount of thermal energy. In order for it to solidify into ice at the same temperature, it must release that energy in the form of heat. This is because the molecules in the liquid state are more disordered and possess more kinetic energy than in the solid state. When energy is removed, the molecules become more ordered and settle into a crystalline structure, resulting in the solidification of water into ice. This process is known as freezing, and it occurs when the temperature of liquid water is reduced below its freezing point (0°C at sea level).
The release of energy during the phase change from liquid to solid is called the heat of fusion, which is the amount of energy required to change the state of a substance from solid to liquid, or vice versa, at a constant temperature. In the case of water, the heat of fusion is 334 joules per gram.
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two satellites of masses m1 and m2 orbit a planet of mass m in circular orbits. the satellites travel in opposite directions with speeds v1 and v2, as shown in the figure above. their orbital radii are r1 and r2,respectively. assume that m >> m2 > m1. if u1 is the potential energy of the planet-satellite system containing the satellite of mass m1 and u2 is the potential energy of the planet-satellite system containing the satellite of mass m2, in terms of the given variables, what is the ratio u1/u2?
The ratio u₁/u₂ is equal to (m₁/m₂)×(r₁/r₂). The potential energy of a planet-satellite system is given by the formula U = -G(m₁m₂)/r, where G is the gravitational constant, m₁ and m₂ are the masses of the planet and satellite, and r is the distance between their centers.
In circular orbits, the kinetic of the satellite is equal to half of its potential energy, so the total energy of the system is negative and equal in magnitude to the potential energy.
Using this formula, we can write u₁ = -G(mm₁)/r₁ and u₂ = -G(m×m₂)/r₂.
Dividing u₁ by u₂, we get:
u₁/u₂ = (-G(m m₁)/r₁) / (-G(m m₂)/r₂)
u₁/u₂ = (m₁ r₂) / (m₂ r₁)
u₁/u₂ = (m₁/m₂) (r₂/r₁)
Since the satellites are in circular orbits, their speeds are given by the formula v = √(Gm/r),
where v is the speed, G is the gravitational constant, m is the mass of the planet, and r is the radius of the orbit.
Therefore, we can write r₂/r₁ = (v₁/v₂)².
Substituting this into the previous equation, we get:
u₁/u₂ = (m₁/m₂) ((v₁/v₂)²)
The ratio u₁/u₂ is equal to (m₁/m₂) (v₁/v₂)², where m₁ and m₂ are the masses of the two satellites, v₁ and v₂ are their speeds, and r₁ and r₂ are their orbital radii.
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Compared to a sports car moving at 30 miles per hour, the same sports car moving at 60 miles per hour has __________.A) same momentumB)half of the momentumC)double the momentumD)triple the momentum
The same sports car moving at 60 miles per hour has double the momentum compared to when it's moving at 30 miles per hour (option C).
Momentum is the product of an object's mass and velocity. Since the sports car has the same mass in both scenarios, its momentum will depend on its velocity. When the car is moving at 60 miles per hour, its velocity is twice that of when it's moving at 30 miles per hour. Therefore, its momentum will be twice as much. It's important to note that the car's kinetic energy, which is proportional to the square of its velocity, will be four times greater when it's moving at 60 miles per hour compared to when it's moving at 30 miles per hour.
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Constructive interference is to destructive interference as a. a + a is to (-a) + (-a).
b. a + a is to (+a) + (-a).
c. rough is to smooth
d. b & c
e. a & c
The answer to the analogy presented is b. a + a is to (+a) + (-a). This is because constructive interference occurs when two waves of the same frequency and amplitude combine to produce a resultant wave with an even larger amplitude.
This is similar to adding two positive values together to get a larger positive value. Destructive interference, on the other hand, occurs when two waves of the same frequency and amplitude combine to produce a resultant wave with a smaller amplitude or even cancel each other out. This is similar to adding a positive and negative value together, resulting in a smaller or interference. The comparison between constructive and destructive interference can be seen in the way that adding positive values can increase the magnitude, while adding negative values can decrease it. In contrast, the analogy options c and d do not have any relation to the concept of interference.
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a child runs at 3.0 m/s and jumps onto a sled, initially at rest. if the child's mass is 36 kg, and if the child and sled slide off together at 2.0 m/s after the collision, the sled's mass is
The sled's mass is 24 kg (since the total mass of the child and sled is 36 kg + 24 kg = 60 kg). The sled's mass is 24 kg. This can be calculated using the conservation of momentum principle, which states that the total momentum of a closed system remains constant if no external forces act on it.
In this case, the initial momentum of the child is 36 kg x 3.0 m/s = 108 kg·m/s. Since the sled is initially at rest, its momentum is 0. After the collision, the combined momentum of the child and sled is (36 kg + m sled) x 2.0 m/s, where m sled is the sled's mass. Using the conservation of momentum principle, we can set these two equations equal to each other and solve for m sled.
The initial momentum of the system is given by the product of the child's mass and velocity:
p initial = m child x v child = 36 kg x 3.0 m/s = 108 kg·m/s
Since the sled is initially at rest, its momentum is 0:
p sled = 0
After the collision, the combined momentum of the child and sled is given by:
p final = (m child + m sled) x v final
where v final is the common velocity of the child and sled after the collision. We are given that v final = 2.0 m/s, so we can substitute that in and solve for m sled:
p initial = p final
36 kg x 3.0 m/s = (36 kg + m sled) x 2.0 m/s
108 kg·m/s = 72 kg·m/s + 2.0 m/s x m sled
36 kg·m/s = 2.0 m/s x m sled
m sled = 36 kg·m/s / 2.0 m/s = 18 kg .
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"Determine the energy stored in a 7.09 ◊ 10^-7 H inductor that carries a 1.50-A current.
A) 2.11 x 10^-8 J
B) 3.78 x 10^-8 J
C) 1.09 x 10^-7 J
D) 7.98 x 10^-7 J
E) 6.60 x 10^-6 J"
The energy stored in a 7.09 × 10^-7 H inductor that carries a 1.50-A current is 1.09 × 10^-7 J.
The energy stored in an inductor can be calculated using the formula:
E = 1/2 * L * I^2 where E is the energy stored in the inductor, L is the inductance, and I is the current flowing through the inductor. Substituting the given values into the formula, we get:E = 1/2 * (7.09 × 10^-7 H) * (1.50 A)^2 = 1.09 × 10^-7 J. Therefore, the energy stored in the inductor is 1.09 × 10^-7 J. Hence, the correct option is (C).
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For light of wavelength 589 nm, calculate the critical angles for the following substances when surrounded by air.
a. Water.
b. Fused quartz.
c. Sodium chloride.
For light of wavelength 589 nm, a) The critical angle for water is 48.6°. b) The critical angle for fused quartz is 42.6°. c) The critical angle for sodium chloride is 39.4°.
What is wavelength?Wavelength is a measure of the distance between two successive peaks or troughs in a wave. It is measured in the direction of wave propagation and is usually expressed in meters. Wavelength is an important physical property of a wave which is used to identify and characterise a wave.
The critical angle is the angle of incidence at which light is just barely refracted by a substance. It is calculated using the equation n1sinθ1=n2sinθ2, where n1 is the index of refraction of the medium the light is traveling in, n2 is the index of refraction of the substance the light is entering, θ1 is the angle of incidence and θ2 is the angle of refraction.
For water, the index of refraction is 1.33, so: 1sinθ1=1.33sinθ2
θ2=sin-1(1/1.33) = 48.6°
The critical angle for water is therefore 48.6°.
For fused quartz, the index of refraction is 1.46, so: 1sinθ1=1.46sinθ2
θ2=sin-1(1/1.46) = 42.6°
The critical angle for fused quartz is therefore 42.6°.
For sodium chloride, the index of refraction is 1.54, so: 1sinθ1=1.54sinθ2
θ2=sin-1(1/1.54) = 39.4°
The critical angle for sodium chloride is therefore 39.4°.
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describe how the date from the measuremet could be anayzed to determine the frictional torque exerted on the rotting latform
To determine the frictional torque exerted on the rotating platform, the date from the measurement needs to be analyzed. The first step is to gather the relevant data, such as the rotational speed of the platform and the force needed to rotate it. This information can then be used to calculate the torque required to overcome the frictional forces.
Next, the data can be plotted on a graph to determine any patterns or trends. For example, if the force required to rotate the platform increases as the speed increases, it may indicate that there is a significant amount of friction present. On the other hand, if the force required remains constant regardless of the speed, it may suggest that the frictional forces are negligible.
Another approach is to use mathematical models to estimate the frictional torque based on the properties of the materials involved. This can involve complex calculations, but can provide a more accurate assessment of the frictional forces present.
Ultimately, a combination of experimental data and theoretical models can be used to determine the frictional torque exerted on the rotating platform. By analyzing the data, researchers can gain a better understanding of the underlying mechanisms and make informed decisions about how to minimize friction and improve the performance of the system.
To determine the frictional torque exerted on the rotating platform, you can analyze the data from the measurement by considering the following terms:
1. Force: Measure the force applied to the rotating platform. This can be done using a force sensor or by calculating the force based on the known mass and acceleration of the platform.
2. Distance: Determine the distance between the point of force application and the axis of rotation. This is known as the moment arm.
3. Frictional torque: Calculate the frictional torque exerted on the rotating platform by multiplying the force by the distance (moment arm). The frictional torque opposes the motion of the platform and is responsible for slowing it down.
4. Analyze the data: You can plot the frictional torque as a function of time, speed, or other relevant factors to analyze the relationship between these variables and understand how the frictional torque impacts the rotation of the platform. This analysis will help you determine the effectiveness of the platform's design and identify areas for potential improvement.
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A magnifying glass has a focal length of 15 cm. If the near point of the eye is 25 cm from the
eye the angular magnification of the glass is about:
A.0.067
B.0.33
C.0.67
D.1.7
E..5
A magnifying glass has a focal length of 15 cm. If the near point of the eye is 25 cm from the eye the angular magnification of the glass is about: 0.33.
What is magnification?Magnification is the process of increasing the apparent size of an object by using a device such as a lens or a microscope. It is a useful tool for observing very small objects that would otherwise not be visible to the eye. Magnification is achieved by focusing light through a lens such that it is concentrated on the object, causing its size to appear larger than it actually is. A microscope is the most common device used for magnification, allowing us to view specimens at high levels of detail. Other devices like magnifying glasses and telescopes can also be used to magnify objects. Magnification is essential in many areas of science and technology, from medical diagnosis to industrial production.
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Q1. It takes 4200 J to raise the temperature of 1kg of water by 1 degree Celsius
(a) How much energy in kJ would it take to raise the temperature of 1 kg of water by 2 degree Celsius?
(b) How much energy in kJ would it take to raise the temperature of 3 kg of water by 1 degree Celsius?
(a) It would take 8.4 kJ of energy to raise the temperature of 1 kg of water by 2 degrees Celsius.
(b) It would take 12.6 kJ of energy to raise the temperature of 3 kg of water by 1 degree Celsius.
What is the amount of energy it will take?To raise the temperature of 1 kg of water by 2 degrees Celsius, the amount of energy required is calculated as
E = 2 x 4200 J
E = 8400 J
E = 8400 J / 1000 = 8.4 kJ
(b) To raise the temperature of 3 kg of water by 1 degree Celsius, the amount of energy required is calculated as;
E = 1 x 4200 J x 3 kg
E = 12600 J
E = 12600 J / 1000
E = 12.6 kJ
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what is the maximum velocity of a photoelectron emitted from a surface whose work function is 5.0 ev when the surface is illuminated by radiation of 200 nm wavelength? (the mass of an electron is 9.11 x 10-31 kg.)
The maximum velocity of the photoelectron is 4.59 x 10^5 m/s when the surface is illuminated by radiation of 200 nm wavelength.
To find the maximum velocity of a photoelectron, we can use the equation:
maximum kinetic energy of photoelectron = energy of incident photon - work function
The energy of a photon can be calculated using the equation:
energy of photon = (Planck's constant x speed of light) / wavelength
Substituting the given values, we get:
energy of photon = (6.626 x 10^-34 J s x 3 x 10^8 m/s) / (200 x 10^-9 m)
= 9.939 x 10^-19 J
The work function is given as 5.0 eV, which can be converted to joules using the conversion factor:
1 eV = 1.602 x 10^-19 J
work function = 5.0 x 1.602 x 10^-19 J
= 8.01 x 10^-19 J
Substituting these values in the first equation, we get:
maximum kinetic energy of photoelectron = 9.939 x 10^-19 J - 8.01 x 10^-19 J
= 1.929 x 10^-19 J
To find the maximum velocity of the photoelectron, we can use the equation:
maximum velocity of photoelectron = √(2 x maximum kinetic energy of photoelectron / mass of electron)
Substituting the given values, we get:
maximum velocity of photoelectron = √(2 x 1.929 x 10^-19 J / 9.11 x 10^-31 kg)
= 4.59 x 10^5 m/s
Therefore, the maximum velocity of the photoelectron is 4.59 x 10^5 m/s when the surface is illuminated by radiation of 200 nm wavelength.
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a toy plane with a mass of 1.10 kg is tied to a string and made to travel at a speed of 25.0 m/s in a horizontal circle with a 16.0-m radius. the person holding the string pulls the plane in, increasing the tension in the string, increasing the speed of the plane and decreasing the radius of the plane's orbit. what is the net work done on the plane if the tension in the string increases by a factor of four and the radius decreases to 8.00 m.
The net work done on the toy plane is 343.75 joules.
Given,
mass of the toy plane = 1.10 kg.
speed of the toy train = 25 m/s.
The radius of the circular path = 16m.
Now,
the energy of the toy plane = Kinetic energy of the plane
= 1/2 × mass × velocity²
= 1/2 × 1.10 × 25²
= 343.75 joules.
∵ The toy plane is moving at a constant speed,
the net force on the toy plane = 0
⇒ centrifugal force = centripetal force
Now the centripetal force acting on the toy plane is the tension in the string.
∴ Tension in the string = centrifugal force
But the centrifugal force = mass × velocity²/radius
= 1.10 × 25²/16
= 42.96 N
∴ Tension in the string = 42.96 N
Now, after the string is pulled,
New tension in the string becomes 4 times. ( according to question)
∴ New tension = 42.96 × 4
= 171.87 N
Again,
The toy moves at a constant speed,
∴ Centripetal force = centrifugal force
But the centripetal force is the new tension in the string.
∴ New tension in the string = centrifugal force
= mass × velocity²/radius
But the radius has changed to 8m.
Let the changed velocity be "v".
∴ New tension in the string = 1.1 × v²/8
⇒ 171.87 = 1.1 × v²/8
⇒ v² = 171.87 × 8/1.1
= 1250
Or, v = 35.35 m/s
Now,
the energy of the plane = the kinetic energy of the plane
= 1/2 × mass × velocity²
= 1/2 × 1.1 × 35.35²
= 687.5 J
We know that,
Net work done = Change in the energy of the object.
Now, a change in the energy of the plane = Change in the kinetic energy
= 687.5 - 343.75
= 343.75 J
Hence, the net work done on the toy plane is 343.75 joules.
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air will flow from an area of pressure to an area of pressure.multiple choice question.
A. lower; higher
B. higher; lower
The correct answer is A. lower; higher. Air will flow from an area of lower pressure to an area of higher pressure. This is because air moves from areas of high pressure to areas of low pressure, creating a pressure gradient.
What is pressure?Pressure is a physical force applied to a surface, usually through the influence of gravity. It is a measure of the force exerted by a fluid, such as air or water, per unit area. Pressure is expressed in units of force per unit area, such as pounds per square inch (psi). Pressure can be exerted on a solid, liquid, or gas. Pressure is a fundamental physical property that affects many physical processes, such as the flow of fluids, the behavior of solids and liquids, and even the behavior of gases.
This pressure gradient causes air to move from areas of high pressure to areas of lower pressure.
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What time does lego star wars the skywalker saga come out.
Lego Star Wars: The Skywalker Saga is set to be released in Spring 2022.
Unfortunately, the exact release date and time for Lego Star Wars: The Skywalker Saga have not been officially announced yet. However, it has been confirmed that the game will be released in Spring 2022. This means that fans of the franchise will have to wait a bit longer to experience the game, but it is expected to be worth the wait.
Lego Star Wars: The Skywalker Saga is one of the most highly anticipated video game releases of the year. Fans of both the Lego franchise and the Star Wars franchise are eagerly waiting to get their hands on the game and explore the galaxy far, far away in a new way.
Despite the excitement, the exact release date and time for Lego Star Wars: The Skywalker Saga have not been officially announced yet. The game was originally scheduled for release in 2020, but it was later delayed due to the COVID-19 pandemic. While the game was initially expected to be released in Spring 2021, it has since been delayed again and is now set to be released in Spring 2022.
While it is disappointing to have to wait longer to play the game, it is expected to be worth the wait. The game promises to be a new and immersive experience for fans of the franchise. It will feature all nine films of the Skywalker saga, including new content and characters that were not featured in previous Lego Star Wars games.
In summary, Lego Star Wars: The Skywalker Saga is set to be released in Spring 2022, but the exact release date and time have not been announced yet. While fans will have to wait a bit longer to experience the game, it is expected to be a new and exciting addition to the franchise.
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t a given instant the current and self-induced emf in an inductor are directed as indicated in fig. 30-59. (a) is the current increasing or decreasing? (b) the induced emf is 17 v, and the rate of change of the current is 25 ka/s; find the inductance.
Inductance is the property of an electrical conductor that opposes changes in its current. The Inductance for the given problem will be -0.68 mH.
How to calculate the inductance of an inductor given the current and induced emf?
When the current through an inductor changes, it produces an induced electromotive force (emf) that opposes the change in current according to Faraday's law.
If the current and induced emf in an inductor are in the same direction, then the inductor is opposing any decrease in the current. This implies that the current is growing.
The magnitude of the induced emf in an inductor is given by the formula:
emf = -L*(delta I/delta t)
Here, L is the inductance in henries, delta I is the change in current in amperes, and delta t is the time in seconds over which the change occurs. The negative sign implies that the induced emf is opposed to the current change.
In this case, the induced emf is 17 V and the rate of change of the current is 25 kA/s. Therefore, we can arrange the above given equation to find the inductance L:
L = -emf/(delta I/delta t)
L = -(17 V)/(25 kA/s)
L ≈ -0.68 mH
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to study a tissue sample better, a pathologist holds a 4.50-cm focal length magnifying glass 2.17 cm from the sample. how much magnification can he get from the lens?
According to the question the pathologist can get a magnification of 2.09 from the lens.
What is pathologist?Pathologists are medical doctors who specialize in diagnosing and determining the cause of diseases and medical conditions. They are often referred to as diagnostic physicians. Pathologists analyze samples of blood, urine, tissue, and other body fluids to look for abnormal cells or to identify bacteria, viruses, and other microorganisms that may be causing an illness.
The amount of magnification provided by a lens is determined by dividing the focal length of the lens (f) by the distance between the lens and the object (d):
M = f / d
In this case, we have a focal length of 4.50 cm and a distance of 2.17 cm, so:
M = 4.50 cm / 2.17 cm
M = 2.09
Therefore, the pathologist can get a magnification of 2.09 from the lens.
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a wire of radius 6 mm and length 400 m is melted into a sphere calculate the radius of the sphere in centimetres
Answer:
22.6 cm
Explanation:
The volume of the wire is equal to the volume of the sphere. The volume of a cylinder (the wire) is given by the formula V = πr^2h, where r is the radius and h is the height (length). The volume of a sphere is given by the formula V = 4/3πR^3, where R is the radius of the sphere.
Let’s first convert the radius of the wire from millimeters to meters:
6 mm = 0.006 m.
The volume of the wire is then V = π(0.006 m)^2(400 m) = 0.04524 m^3.
Now we can solve for the radius R of the sphere:
0.04524 m^3 = 4/3πR^3.
Solving for R gives
R = (0.04524 m^3 / (4/3π))^(1/3) ≈ 0.226 m.
Finally, let’s convert the radius from meters to centimeters:
0.226 m = 22.6 cm.
So, the radius of the sphere is approximately 22.6 cm.
a 1.00 mf capacitor has an initial charge of 0.100 c. when a resistor is connected across the capacitor plates, there is an initial current through the resistor of 1.00 a. what is the current 1.00 s later?
The current through the resistor 1.00 s later is approximately 4.54 x 10^(-5) A.
The initial charge on the capacitor is 0.100 c, which means the voltage across the capacitor is:
V = Q/C = 0.100 C / 1.00 mF = 100 V
When the resistor is connected across the capacitor plates, the voltage across the resistor is also 100 V. The initial current through the resistor is given as 1.00 A.
We can use the formula for the discharge of a capacitor through a resistor to find the current after 1.00 s:
I = I₀ * e^(-t/RC)
where I₀ is the initial current, t is the time elapsed, R is the resistance of the resistor, and C is the capacitance of the capacitor.
In this case, we have:
I₀ = 1.00 A
t = 1.00 s
R = ?
C = 1.00 mF = 0.001 F
We need to find the value of R. We can use Ohm's law to relate the voltage across the resistor to the current through it:
V = IR
We know that the voltage across the resistor is 100 V. We also know that the voltage across the capacitor has decreased to zero after 1.00 s, so the voltage across the resistor must also have decreased to zero. Therefore, the current through the resistor after 1.00 s must also be zero.
Substituting these values into Ohm's law, we get:
0 = I * R
Therefore, R = 0.
This means that the current through the resistor remains at 1.00 A for 1.00 s, and then drops to zero instantly.
Therefore, the current through the resistor 1.00 s later is approximately 4.54 x 10^(-5) A.
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suppose you are traveling in a spaceship at a velocity close to the speed of light. which of the following would you notice?
Answer:
If you were traveling in a spaceship at a velocity close to the speed of light, you would notice several effects of special relativity, including:
Time dilation: Time would appear to be passing more slowly for you compared to someone who is not moving at such a high velocity. This means that while only a few minutes may have passed for you on the spaceship, much more time may have passed for someone on Earth.
Length contraction: Objects in the direction of your motion would appear to be shorter than they actually are. This means that objects that are normally a certain length may appear shorter to you on the spaceship.
Relativistic Doppler effect: Light emitted by objects in the direction of your motion would appear to be shifted towards the blue end of the spectrum, while light emitted by objects behind you would appear shifted towards the red end of the spectrum. This is known as the relativistic Doppler effect.
Increased mass: As you approach the speed of light, your mass would appear to increase. This means that it would take more and more energy to continue accelerating the spaceship.
These effects are all consequences of the special theory of relativity and have been experimentally verified.
Explanation:
Anytime a temperature difference occurs, you can expect
a. heat movement from high temperature regions. b. no energy movement unless it is warm enough. c. heat movement from cold to warmer regions. d. cold to move where it is warmer, such as cold moving into a warm house during the winter.
Anytime there is a temperature difference between two regions, heat moves from the region with higher temperature to the region with lower temperature. The correct option is C.
This process is known as heat transfer, and it occurs until both regions reach the same temperature and thermal equilibrium is established. This principle is used in various applications, such as refrigeration systems, cooking, and heating. It also explains why a hot cup of coffee cools down when left on a table, and why ice cubes melt when added to a drink.
Additionally, this principle applies to weather patterns, as warm air rises and cold air sinks, causing wind and weather patterns. In summary, heat moves from high temperature regions to low temperature regions, and this process occurs until thermal equilibrium is achieved.
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If the potential difference across a resistor is doubled: A.only the current is doubled B.only the current is halved C.only the resistance is doubled D.only the resistance is halved E.both the current and resistance are doubled
If the potential difference across a resistor is doubled: Both the current and resistance are doubled.
What is resistor?A resistor is an electronic component that is used to reduce the current flow in an electrical circuit. It is made from a material that has a certain resistance to the flow of electricity. When current flows through a resistor, the electrons collide with the atoms in the resistor material, causing friction which creates heat and wastes energy. This process is known as Ohm's law and it states that the voltage across the resistor is directly proportional to the current through it. The resistance of a resistor is measured in Ohms.
This is because the equation for Ohm's Law states that the potential difference (voltage) is equal to the current multiplied by the resistance. Therefore, if the voltage is doubled, the current and resistance must also be doubled in order to maintain the equation.
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