Give at least one example as to how the thermal properties of a material can effect how it is used. (Classic example: why is a hot pad much more important when touching a hot aluminum pan than when touching a hot pyrex pan, even if they have the same temperature? How might cake or bread cook differently in the two materials? What kind of material would make a better frying pan? What kind of material would make a better hot pad?)

Answers

Answer 1

Materials can prevent heat from transferring to the skin, protecting it from burns.

The thermal properties of a material play a crucial role in determining its usefulness in various applications. For example, consider the case of a hot pad that is used to protect hands from hot surfaces such as a hot aluminum pan or a hot pyrex pan. Aluminum has a high thermal conductivity, which means that it can transfer heat more rapidly than Pyrex. As a result, the hot pad is more important when touching a hot aluminum pan than a hot Pyrex pan, even if they have the same temperature.

Similarly, the thermal properties of a material can also impact how cake or bread cooks in different materials. For example, aluminum conducts heat much faster than glass, which can result in more rapid and uneven baking of cakes or bread. Pyrex, on the other hand, has a lower thermal conductivity and is better suited for slow, even baking.

When it comes to frying pans, a good material choice would be one that has high thermal conductivity and heats up quickly, such as copper or aluminum. These materials allow for rapid heat transfer to the food being cooked, resulting in faster and more even cooking. A good hot pad material, on the other hand, would be one that has low thermal conductivity and acts as a good insulator, such as silicone or neoprene. These materials can prevent heat from transferring to the skin, protecting it from burns.

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Related Questions

Satellite A is in orbit about a planet A of mass M. Satellite B is in orbit about a planet B that has four times the mass of planet A, and orbits about planet B with an orbital radius of four times that of satellite A. Compare the period of satellite B to that of A. B has ____ the period of A.

Answers

The period of satellite B is  8 times  to that of satellite A.

B has 8 times the period of A.

To compare the period of Satellite B to that of Satellite A, we can use Kepler's Third Law, which states:

(T1²/T2²) = (R1³/R2³)

where T1 and T2 are the orbital periods of Satellite A and Satellite B, and R1 and R2 are their respective orbital radii.

According to the question:

- Planet B has four times the mass of Planet A (M_B = 4 * M_A)
- Satellite B's orbital radius is four times that of Satellite A (R2 = 4 * R1)

Now, let's rearrange Kepler's Third Law to isolate T2:

T2² = T1² * (R2³ / R1³)

Substitute the given information:

T2² = T1² * ((4 * R1)³ / R1³)

Simplify the equation:

T2² = T1² * (4³)

T2² = T1² * 64

Now, take the square root of both sides to get T2:

T2 = T1 * √64

T2 = T1 * 8

So, Satellite B has 8 times the period of Satellite A.

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How does Benjamin Franklin's single fluid model explain the different charges that emerge when we charge a glass rod by rubbing it with a nylon cloth?

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Franklin's model provides a useful conceptual framework for understanding the behavior of charged objects.

Benjamin Franklin's single fluid model of electricity is based on the idea that there is a single fluid called "electric fluid" that exists in all matter. According to this model, when an object is charged, it either gains or loses this electric fluid.

In the case of rubbing a glass rod with a nylon cloth, the glass rod loses some of its electric fluid to the nylon cloth. This leaves the glass rod with an excess of electric fluid of the opposite type, resulting in a net negative charge on the glass rod. The nylon cloth, on the other hand, gains some of the electric fluid, resulting in a net positive charge on the nylon cloth.

This model suggests that the electric fluid moves from one object to another during the charging process, and that the type of charge that emerges depends on which type of electric fluid is transferred.

It is important to note that Franklin's single fluid model is a simplified explanation of electricity and does not fully explain all aspects of the phenomenon. Modern understanding of electricity involves the concept of electrons, which are negatively charged particles that can move from one object to another. However, Franklin's model provides a useful conceptual framework for understanding the behavior of charged objects.

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(Unit 4) What does wavelength and amplitude measure?

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Wavelength and amplitude are both important terms used to describe characteristics of a wave, such as a sound wave or an electromagnetic wave. Wavelength measures the distance between two consecutive points in the same phase, determining the wave's frequency, while amplitude measures the maximum displacement of the wave from its equilibrium position, indicating the wave's energy and intensity.


Wavelength (λ) measures the distance between two consecutive points in the same phase of a wave, typically between two consecutive peaks or troughs. It is usually expressed in units such as meters (m), centimeters (cm), or nanometers (nm).

The wavelength determines the wave's frequency (f), as their relationship is defined by the equation: speed of wave (v) = frequency (f) × wavelength (λ). In other words, as the wavelength of a wave increases, its frequency decreases and vice versa.
Amplitude measures the maximum displacement of a wave from its equilibrium position or the highest point it reaches. In simple terms, it represents the "height" of the wave. Amplitude is directly related to the energy and intensity of a wave. In the case of a sound wave, amplitude is associated with the loudness of the sound, whereas for an electromagnetic wave, it corresponds to the brightness of light. Amplitude is usually measured in units such as meters (m) or volts (V), depending on the type of wave.
In summary, wavelength and amplitude are essential parameters to describe the properties of a wave. Wavelength measures the distance between two consecutive points in the same phase, determining the wave's frequency, while amplitude measures the maximum displacement of the wave from its equilibrium position, indicating the wave's energy and intensity.

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consider a 1-dimensional arrangement of three charges. two charges are already placed as shown below. in which of the three regions could a third charge be placed and the net electric force on the third charge will be zero?

Answers

The charge q must be placed at a distance 0.449 cm from 2q and 0.551cm from 3q.

The electric force on q due to 2q,

F₁ = kq(2q)/r²

The electric force on q due to 3q,

F₂ = kq(3q)/(1 - r)²

For the net force on q to be zero, F₁ must be equal to F₂. So,

kq(2q)/r² = kq(3q)/(d - r)²

r² = 2(1 - r)²/3

r = (1 - r)(√2/3)

r = 0.816(1 - r)

1.816r = 0.816

Therefore,

r = 0.449 cm

So, 1 - r = 0.551 cm

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At which frequency will a listener be able to correctly perceive the tone pitch for a 9.5 ms burst of sinusoidal sound?

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The frequency at which a listener will be able to correctly perceive the tone pitch for a 9.5 ms burst of sinusoidal sound will depend on the specific characteristics like frequency, intensity and duration of the sound, as well as the listener's age and hearing ability of the sound wave.

In general, pitch perception is determined by the frequency of the sound wave, which is the number of cycles of the wave that occur per second. For example, a sound wave with a frequency of 440 Hz is perceived as the musical note A.

However, it is worth noting that other factors, such as the intensity and duration of the sound, as well as the listener's age and hearing ability, can also affect pitch perception.

Therefore, in order to determine the frequency at which the tone pitch can be correctly perceived, we need to know the frequency of the sinusoidal wave used in the 9.5 ms burst. If the frequency is within the range of human hearing (roughly 20 Hz to 20,000 Hz), and if the listener's auditory system is functioning properly, then they should be able to perceive the tone pitch.

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The Greenland ice sheet can be 1 km thick. Estimate the pressure underneath the ice. (The density of ice is 918 kg/m3 and the atmospheric pressure is 1.013 x105 Pa).

Answers

The estimated pressure underneath the 1 km thick Greenland ice sheet is approximately 9,106,898 Pa, which is the sum of the pressure from the ice and the atmospheric pressure.

Calculate the pressure using formula
pressure = density x gravity x height
where density is the density of ice (918 kg/m3), gravity is the acceleration due to gravity (9.81 m/s2), and height is the thickness of the ice sheet (1 km or 1000 m).
Using these values, we can calculate the pressure underneath the ice as:
pressure = 918 kg/m3 x 9.81 m/s2 x 1000 m
pressure = 9,005,580 Pa
However, this pressure is only the pressure exerted by the ice itself. We also need to consider the atmospheric pressure, which is the pressure exerted by the air above the ice sheet. The atmospheric pressure is given as 1.013 x105 Pa.
Estimate the total pressure underneath the ice, we need to add the atmospheric pressure to the pressure exerted by the ice:
total pressure = atmospheric pressure + pressure from ice
total pressure = 1.013 x105 Pa + 9,005,580 Pa
total pressure = 9,106,898 Pa
Therefore, the estimated pressure underneath the 1 km thick Greenland ice sheet is approximately 9,106,898 Pa, which is the sum of the pressure from the ice and the atmospheric pressure.

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Can dimensional Analysis determine whether the area of a circle is pi-r squared or 2 pi- r squared? Explain

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Dimensional analysis cannot determine whether the area of a circle is [tex]\pi r^{2}[/tex] or [tex]2\pi r^{2}[/tex] Dimensional analysis only deals with the units of measurement involved in a calculation, not the numerical values or formulas used.

Dimensional analysis alone cannot determine which of the two formulas,[tex]\pi r^{2}[/tex] or [tex]2\pi r^{2}[/tex], represents the correct formula for the area of a circle. Dimensional analysis can only be used to check whether the units of the quantities involved in an equation are consistent with each other. In this case, both formulas have units of length squared, so dimensional analysis cannot distinguish between them. To determine which of the two formulas is correct, we need to rely on other methods, such as mathematical proofs or experimental evidence. In fact, it has been mathematically proven that the formula for the area of a circle is[tex]\pi r^2[/tex], so this is the correct formula. The formula [tex]2\pi r^2[/tex] is not a formula for the area of a circle.

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with higher pressure, the nuclear fusion process occurs more frequently, releasing more energy. the lower the mass of a star, the group of answer choices shorter its life will be hotter its core will be longer its life will be more energy will be released by fusion in the core greater the pressure will be in the core

Answers

With higher pressure, the nuclear fusion process occurs more frequently, releasing more energy. The lower the mass of a star, the longer its life will be.

Here's a step-by-step explanation:

1. Higher pressure in a star's core leads to more frequent nuclear fusion, which releases more energy.
2. The mass of a star influences its life span, core temperature, and pressure.
3. Lower-mass stars have a longer life span because they consume their fuel more slowly compared to high-mass stars.
4. High-mass stars have a shorter life span, hotter cores, and higher pressure, leading to more frequent nuclear fusion and energy release.

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If an object has a changing speed, its velocity must also be changing but if it has a changing velocity its speed in no necessarily changing

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The velocity must change when the speed does.

When an object has a changing speed, its velocity must also be changing. This is because velocity takes into account the object's speed as well as its direction of motion. If the speed changes, the velocity must change as well. However, if an object has a changing velocity, its speed is not necessarily changing.

This is because velocity also takes into account the direction of motion, so the object's velocity can change even if its speed remains constant.

For example, if an object moves in a circular path at a constant speed, its velocity is constantly changing because it is constantly changing direction. Therefore, it is important to differentiate between speed and velocity, as they are not always interchangeable terms.

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The probable question may be:

When the speed is constant the velocity may not be constant but when the velocity is constant the speed must be constant. From this statement how can you interpret relation of velocity with speed?

The flow rate of a liquid through a 2.0-cm-radius pipe is 0.008 0 m3/s. The average fluid speed in the pipe is:
a. 0.64 m/s.
b. 2.0 m/s.
c. 0.040 m/s.
d. 6.4 m/s.

Answers

The average fluid speed in the pipe is approximately 6.4 m/s. The answer is (d)

To find the average fluid speed, we can use the formula:

Average fluid speed = Flow rate / Cross-sectional area

First, we need to find the cross-sectional area (A) of the pipe. We can use the formula for the area of a circle: A = πr², where r is the radius of the pipe. In this case, r = 2.0 cm = 0.020 m.

A = π(0.020 m)² = π(0.0004 m²) = 0.001256 m² (approximately)

Now, we can find the average fluid speed using the flow rate (Q) and cross-sectional area:

Average fluid speed = Q / A = 0.0080 m³/s / 0.001256 m² ≈ 6.37 m/s

The answer closest to this value is 6.4 m/s, so the correct choice is d. 6.4 m/s.

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T/F For every torque, there is an equal and opposite reaction torque

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"For every torque, there is an equal and opposite reaction torque." This statement is true based on Newton's Third Law of Motion.

Newton's Third Law of Motion states that for every action, there is an equal and opposite reaction. When it comes to torque, this law also applies. Torque is the rotational equivalent of force and is calculated as the product of force and the distance from the axis of rotation (torque = force × distance).

When an object is subjected to torque, it experiences a rotational force that causes it to spin or rotate. As per Newton's Third Law, an equal and opposite reaction torque is generated in response to the applied torque. This reaction torque is necessary to maintain equilibrium in the system and prevent uncontrolled rotation.

In summary, for every torque applied to an object, there is an equal and opposite reaction torque, which follows Newton's Third Law of Motion. This ensures that the object remains in equilibrium, balancing the applied torque with the reaction torque.

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What would be the synchronous speed of a 24-pole three-phase synchronous motor operating at 20 Hz

Answers

The synchronous speed of the motor would be 100 RPM.

To calculate the synchronous speed of a 24-pole three-phase synchronous motor operating at 20 Hz, you can use the following formula:

Synchronous Speed (Ns) = (120 * Frequency) / Number of Poles

By plugging in the given values:

Ns = (120 * 20 Hz) / 24 poles

Ns = 2400 / 24

Ns = 100 RPM

So, the synchronous speed of the motor would be 100 RPM.

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A child rides on a pony walking with constant velocity? The boy leans over to one side and a scoop of ice cream falls from his ice cream cone. Describe the path of the scoop of ice cream as seen by (a) the child and (b) his parents standing on the ground nearby.

Answers

B
It's B
Because the boy can't stand there if he is a riding a pony

Two pith balls are both charged by contact with a plastic rod that has been rubbed by cat fur.How will the two pith balls react to each other?

Answers

When two pith balls are charged by contact with a plastic rod that has been rubbed with cat fur, they will both acquire the same type of charge. This is because the plastic rod has gained electrons from the cat fur, giving it a negative charge, which it then transfers to the pith balls upon contact.

Since like charges repel each other, the two pith balls will also repel each other. This means that they will move away from each other and try to get as far apart as possible.

The amount of repulsion between the two balls will depend on the amount of charge they acquired from the plastic rod. If the charge is strong, the repulsion will be greater, and the balls will move farther apart.

Overall, the two pith balls will exhibit electrostatic repulsion due to the like charges they acquired from the plastic rod.

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suppose the distance to a star was doubled but everything else about the star stayed the same. what would happen to the star's luminosity and apparent brightness?

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If the distance to a star was doubled but everything else about the star stayed the same, the star's luminosity would remain constant while its apparent brightness would decrease.

To explain this, let's define the terms:

1. Luminosity: The intrinsic brightness of a star, which depends on its size and temperature.
2. Apparent brightness: How bright the star appears to an observer on Earth, which depends on both its luminosity and distance from Earth.

Since you mentioned that everything else about the star stays the same, its luminosity will not change. However, the apparent brightness will decrease because it is inversely proportional to the square of the distance between the star and the observer (Inverse Square Law).

As the distance is doubled, the apparent brightness will decrease by a factor of 2²= 4. In other words, the star will appear 1/4 as bright as it did before the distance was doubled.

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Given the equation describing the displacement of an object undergoing simple harmonic motion, Find the maximum acceleration of the object.

Answers

The maximum acceleration of the object is 10.94 x 10² m/s².

The equation of displacement is given as,

y(t) = 4.8 cos(15.1 t)

It is in the form, y(t) = A cos(ωt)

So, the amplitude of the SHM, A = 4.8 m

Angular frequency, ω = 15.1 s⁻¹

The maximum acceleration,

a(max) = -Aω²

the -ve sign indicates that the acceleration is acting towards the mean position.

a(max) = 4.8 x 15.1²

a(max) = 10.94 x 10² m/s²

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Because of a frictional force of 2.6 N, a force of 2.8 N must be applied to a textbook in order to slide it along the surface of a wooden table. The book accelerates at a rate of 0.11 m/s². What is the net force acting on the book? What is the mass of the book?

Answers

To solve this problem, we can use Newton's second law of motion, which states that the net force (F_net) acting on an object is equal to its mass (m) times its acceleration (a):

F_net = ma

We can start by finding the net force acting on the book. The force of friction (F_friction) is given as 2.6 N, and the force required to slide the book (F_applied) is given as 2.8 N. The net force is the difference between these two forces:

F_net = F_applied - F_friction
F_net = 2.8 N - 2.6 N
F_net = 0.2 N

Therefore, the net force acting on the book is 0.2 N.

Next, we can use Newton's second law to find the mass of the book. Rearranging the equation, we get:

m = F_net / a

Substituting the values we just found, we get:

m = 0.2 N / 0.11 m/s²
m = 1.82 kg

Therefore, the mass of the book is 1.82 kg.

the electrons are emitted from the cathode with zero velocity, one velocity, or a range of velocities? explain?

Answers

Electrons are emitted from the cathode with a range of velocities. This phenomenon can be explained by considering the energy distribution of electrons within the cathode material.

Electrons in a metal are in various energy states, which are influenced by factors such as temperature and the presence of an electric field.

When a potential difference is applied across a cathode and an anode, the electric field created between them can cause some electrons in the cathode to gain enough energy to overcome the work function, which is the minimum energy needed for an electron to be emitted from the surface of the metal. The energy of these emitted electrons varies due to their initial energy states and the amount of energy gained from the electric field.

Thermal energy can also play a role in electron emission. At higher temperatures, a greater number of electrons in the cathode have sufficient thermal energy to overcome the work function. These thermally emitted electrons will also exhibit a range of velocities depending on their initial energy states and the amount of thermal energy gained.

In summary, electrons are emitted from the cathode with a range of velocities due to the different energy states within the cathode material and the various energy sources, such as the electric field and thermal energy, that can contribute to overcoming the work function.

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A steel sphere sits on top of an aluminum ring. The steel sphere (a = 1.10 ´ 10-5/C°) has a diameter of 4.000 0 cm at 0°C. The aluminum ring (a = 2.40 ´ 10-5/C°) has an inside diameter of 3.994 0 cm at 0°C. Closest to which temperature given will the sphere just fall through the ring?

Answers

2.18°C is the Closest temperature given will the sphere just fall through the ring in a steel sphere sits on top of an aluminum ring

To determine the temperature at which the steel sphere will just fall through the aluminum ring, we need to consider the thermal expansion of both objects. As temperature increases, both the sphere and the ring will expand, but the sphere will expand more due to its larger coefficient of linear expansion.
First, we need to convert the diameter of the sphere and the inside diameter of the ring from centimeters to meters, since the coefficients of linear expansion are given in units of meters per degree Celsius.
Diameter of sphere = 4.000 0 cm = 0.040 000 m
Inside diameter of ring = 3.994 0 cm = 0.039 940 m
Next, we need to calculate the change in diameter of both the sphere and the ring over a range of temperatures. Let's call the temperature at which the sphere just falls through the ring T.
Change in diameter of sphere = (coefficient of linear expansion of steel) x (original diameter of sphere) x (change in temperature)
Change in diameter of ring = (coefficient of linear expansion of aluminum) x (original diameter of ring) x (change in temperature)
At T, the change in diameter of the sphere will be equal to the change in diameter of the ring, since this is the temperature at which the sphere just fits through the ring. Therefore, we can set these two equations equal to each other:
(a steel)x(0.040 000 m)x(T - 0°C) = (an aluminum)x(0.039 940 m)x(T - 0°C)
Solving for T, we get:
T = (an aluminum)x(0.039 940 m) / (a steel)x(0.040 000 m) + 0°C
T = (2.40 x 10⁻⁵ /°C)x(0.039 940 m) / (1.10 x 10⁻⁵ /°C)x(0.040 000 m) + 0°C
T = 2.18 + 0°C
Therefore, the temperature closest to which the sphere will just fall through the ring is 2.18°C.

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A mass M is placed on a spring with a constant K and is pulled back a distance x to allow the spring to oscillate horizontally on a friction less surface with a period T. What factor can must be changed to allow the same spring to oscillate faster?

Answers

The oscillation will be faster when the mass M is increased.

The maximum velocity in a simple harmonic oscillation is given by,

v(max) = Aω

A is the amplitude and ω is the angular frequency.

The angular frequency of the spring,

ω = √(k/m) where k is the spring constant and m is the mass

Therefore, to increase the velocity of oscillation, the angular frequency must be increased.

So, to increase angular frequency, the mass M should be increased.

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In uniform circular motion, which way does centripetal force point. Where is the instantaneous velocity vector locate on the circle? What is the equation that describes circular motion?

Answers

The equation that describes circular motion is given by: F_c = (m*v^2) / r

In uniform circular motion, centripetal force always points towards the center of the circle. The instantaneous velocity vector is located tangent to the circle at the point where the moving object is currently positioned.
The equation that describes circular motion is given by:
F_c = (m*v^2) / r
where F_c is the centripetal force, m is the mass of the object, v is the instantaneous velocity, and r is the radius of the circle.
Remember, the centripetal force is responsible for keeping the object in circular motion and always acts towards the center of the circle, while the instantaneous velocity vector indicates the direction and magnitude of the object's velocity at any given point along the circle.

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A 1.0-kg block is pushed up a rough 22° inclined plane by a force of 7.0 N acting parallel to the incline. The acceleration of the block is 1.4 m/s2 up the incline. Determine the magnitude of the force of friction acting on the block.
1) 1.9 N
2) 2.2 N
3) 1.3 N
4) 1.6 N
5) 3.3 N

Answers

The magnitude of the force of friction acting on the block is 1.6 N. So, the correct answer is option 4.

This can be estimated using the formula Ff = μmgcosθ, where Ff is the frictional force, μ is the frictional coefficient, m is the mass of the block, g is the acceleration brought on by gravity, and is the inclined plane's angle.

Substituting the given values, Ff = 0.2 × 1 × 9.8 × cos(22) = 1.6 N.

To maintain equilibrium, the block must be able to resist the force of 7 N being imparted to it by friction.

This is so that the block wouldn't need any external force to accelerate down the hill if there were no friction.

The frictional force also contributes to the block's acceleration of 1.4 m/s², as the force needed to accelerate the block must be greater than the frictional force.

Complete Question:

A 1.0-kg block is pushed up a rough 22° inclined plane by a force of 7.0 N acting parallel to the incline. The acceleration of the block is 1.4 m/s² up the incline. Determine the magnitude of the force of friction acting on the block.

1) 1.9 N

2) 2.2 N

3) 1.3 N

4) 1.6 N

5) 3.3 N

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9.19 Curling is a sport played with 20 kg stones that slide across an ice surface. Suppose a curling stone sliding at 1 m/s strikes another, stationary stone and comes to rest in 2 ms. Approx. how much force is there on the stone during the impact?A 200 NB 1000 NC 2000 ND 10,000 N

Answers

Curling is a sport played with 20 kg stones that slide across an ice surface. Suppose a curling stone sliding at 1 m/s strikes another, stationary stone and comes to rest in 2 ms. The force on the stone during the impact is option (D) 10,000 N.

To calculate the force on the curling stone during the impact, we can use the impulse-momentum theorem, which states that the impulse of a force on an object is equal to its change in momentum. We can assume that the two stones are of equal mass (20 kg), since the problem does not provide any information to suggest otherwise. Let's call the initial velocity of the moving stone "v" and the final velocity (0 m/s, since it comes to rest) "u". The change in velocity is therefore:

Δv = u - v = 0 - 1 = -1 m/s

The time taken for the stone to come to rest is given as 2 ms, which is equal to 0.002 s. Using the formula for impulse, J = Δp = mΔv, we can calculate the impulse of the force acting on the stone:

J = (20 kg) x (-1 m/s) = -20 Ns

Since the force is applied for a time of 0.002 s, we can calculate the force using the formula for average force:

F = J / t = (-20 Ns) / (0.002 s) = -10,000 N

The negative sign indicates that the force is in the opposite direction to the motion of the stone. Therefore, the approximate force on the stone during the impact is 10,000 N, which is answer choice D.

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Water pressurized to 3 ´ 105 Pa is flowing at 5.0 m/s in a pipe which contracts to 1/3 of its former area. What are the pressure and speed of the water after the contraction? (Density of water = 1 x 103 kg/m3.)

Answers

The pressure of the water after the contraction is -6 x 10^4 Pa (partial vacuum) and the speed is 15.0 m/s.

According to the principle of continuity, the product of the cross-sectional area of the pipe and the speed of the water remains constant. Therefore, since the area of the pipe contracts to 1/3 of its former area, the speed of the water must increase to 3 times its former speed to maintain the continuity.

Using the Bernoulli's equation, we can relate the pressure and speed of the water before and after the contraction:

P1 + 1/2 * rho * v1^2 = P2 + 1/2 * rho * v2^2

where P1 and v1 are the pressure and speed of the water before the contraction, and P2 and v2 are the pressure and speed of the water after the contraction.

We know that P1 = 3 x 10^5 Pa, v1 = 5.0 m/s, rho = 1 x 10^3 kg/m3, and v2 = 3 x 5.0 = 15.0 m/s.

To solve for P2, we rearrange the equation:

P2 = P1 + 1/2 * rho * (v1^2 - v2^2)

P2 = 3 x 10^5 + 1/2 * 1 x 10^3 * (5.0^2 - 15.0^2)

P2 = -6 x 10^4 Pa (negative pressure indicates a partial vacuum)

Therefore, the pressure of the water after the contraction is -6 x 10^4 Pa (partial vacuum) and the speed is 15.0 m/s.

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State officials are considering constructing a maglev train system between two large
cities and an airport in your area. They have requested your input in making their
decision. Would you speak for or against the project? Give reasons for your position.

Answers

I would speak for the project. Maglev trains are a cutting-edge transportation technology that can reduce travel time between cities and airports drastically.

What is trains ?

Trains are a type of transportation that have been around for many years. They are composed of a series of connected cars that are pulled or pushed along a set of tracks by a locomotive. Trains are a convenient and fast way to travel, and they can often transport passengers and cargo over long distances. Trains are powered by a variety of different energy sources, such as diesel fuel, electricity, or steam. Trains can be used for both passenger and freight transport, and they can be used in urban, suburban and intercity environments. Trains have come a long way since their invention, and today they are one of the most efficient and cost-effective forms of transportation.

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How far must a spring with a constant of 3.0 N/m be pulled back to apply 2.0 N of force on the 0.50 kg mass that is attached to it?

Answers

Answer:

0.67 meters (or 67 centimeters)

Explanation:

F = -kx

Where:

F = force exerted by the spring (in newtons, N)

k = spring constant (in newtons per meter, N/m)

x = displacement of the spring from its equilibrium position (in meters, m)

Given:

k = 3.0 N/m (spring constant)

F = 2.0 N (force exerted on the mass)

m = 0.50 kg (mass)

We can rearrange Hooke's Law to solve for the displacement x:

x = -F / k

Plugging in the given values:

x = -2.0 N / 3.0 N/m

x = -0.67 m

So, the spring must be pulled back by a distance of 0.67 meters (or 67 centimeters) in order to apply a force of 2.0 N on the 0.50 kg mass attached to it. Note that the negative sign indicates that the spring is being stretched or pulled in the opposite direction of its equilibrium position.

7.21 Suppose manufacturers increase the size of compact disks so that they are made of the same material and have the same thickness as a current disk but have twice the diameter. By what factor will the moment of inertia increase?A 2B 4C 8 D 16

Answers

The moment of inertia will increase by a factor of 16. Hence, the answer is D) 16.

The moment of inertia of a uniform thin disk of mass M and radius R is given by the formula:

I = (1/2)MR^2

If the diameter of the disk is doubled, its radius will also be doubled. Let's assume that the original disk has a radius R and the new disk has a radius 2R. The mass of the new disk will be four times the mass of the original disk because the volume (and hence the mass) of a disk is proportional to the square of its radius. Since the thickness of the disks is the same, the density of the material will also be the same.

Therefore, the moment of inertia of the new disk can be calculated as follows:

I_new = (1/2)(4M)(2R)^2 = 8MR^2

The moment of inertia of the original disk is:

I_original = (1/2)M(R)^2

So the ratio of the moment of inertia of the new disk to that of the original disk is:

I_new/I_original = (8MR^2) / [(1/2)M(R)^2] = 16

Therefore, the moment of inertia will increase by a factor of 16. Hence, the answer is D) 16.

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FILL IN THE BLANK. "A parallel plate capacitor is charged and then disconnected from the battery. The plates are thenpulled a small distance farther apart. The electric field between the plates ___________________________."

Answers

When a parallel plate capacitor is charged and disconnected from the battery, the electric field between the plates decreases when the plates are pulled a small distance farther apart.

The capacitance of a parallel plate capacitor is given by the equation C = εA/d, where C is capacitance, ε is the permittivity of the dielectric material between the plates, A is the area of the plates, and d is the distance between the plates. As the distance between the plates increases, the capacitance of the capacitor decreases, since there is less electric field between the plates for a given charge. This means that the electric field strength between the plates also decreases, since the electric field is directly proportional to the charge divided by the distance between the plates.

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STT 7 As an audio CD plays, the frequency at which the disk spins changed. At 210 rpm, the speed of a point on the outside edge of the disk is 1.3 m/s. At 420 rpm, the speed of a point on the outside edge is a 1.3 m/sB 2.6 m/sC 3.9 m/sD 5.2 m/s

Answers

In an audio CD plays, the frequency at which the disk spins changed. At 210 rpm, the speed of a point on the outside edge of the disk is 1.3 m/s. At 420 rpm, the speed of a point on the outside edge is option (B) 2.6 m/s.

The speed of a point on the outside edge of the disk is directly proportional to the angular speed of the disk, which is given in terms of revolutions per minute (rpm).

Let v be the speed of a point on the outside edge of the disk in meters per second (m/s), ω be the angular speed of the disk in radians per second (rad/s), and r be the radius of the disk in meters (m).

The formula relating these quantities is:

v = ωr

We can convert the given speeds from rpm to rad/s using the conversion factor of 2π radians per revolution.

At 210 rpm, ω = 210 rpm x (2π rad/1 rev) / (60 s/1 min) = 22π rad/s

At 420 rpm, ω = 420 rpm x (2π rad/1 rev) / (60 s/1 min) = 44π rad/s

Since the radius of the disk is constant, we can use the formula v = ωr to calculate the new speed:

v = ωr = (44π rad/s)(r) = 2(22π)(r) m/s

Therefore, the speed of a point on the outside edge of the disk at 420 rpm is 2 times the speed at 210 rpm, or:

v = 2(1.3 m/s) = 2.6 m/s

Therefore, the answer is B) 2.6 m/s.

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If we increase the diameter of the circular aperture, what happens to the angle for Rayleigh's criterion?
- remains the same
- increases
- decreases

Answers

If we increase the diameter of the circular aperture, the angle for Rayleigh's criterion decreases. Rayleigh's criterion states that the minimum angle between two point sources of light.

That can be distinguished is directly proportional to the wavelength of the light and inversely proportional to the diameter of the circular aperture. Therefore, as the diameter increases, the angle decreases, allowing for better resolution and the ability to distinguish between closer point sources of light.
If we increase the diameter of the circular aperture, the angle for Rayleigh's criterion decreases.
Rayleigh's criterion is a formula used to determine the angular resolution of an optical system. The formula is:
θ = 1.22 * (λ / D)
where θ is the angular separation, λ is the wavelength of light, and D is the diameter of the circular aperture. As you can see from the formula, if the diameter D increases, the angle θ decreases, assuming the wavelength remains constant.

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