an airship is to operate at 20 m/s in air at standard conditions. true or false?

Answers

Answer 1

True. There are two main types of airships - rigid and non-rigid. Rigid airships, such as the famous Zeppelin, have a fixed structure that provides stability, while non-rigid airships, such as blimps, rely on the pressure of the gas inside the envelope to maintain their shape.

Assuming you are referring to a non-rigid airship, it is likely true that it can operate at 20 m/s in the air at standard conditions. However, this would depend on the specific design and capabilities of the airship.

Factors such as the size of the envelope, the type and amount of gas used, and the power of the engines all play a role in determining the maximum speed an airship can achieve.

In summary, it is possible for a non-rigid airship to operate at 20 m/s in the air at standard conditions, but this would depend on various factors related to the specific airship design.

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Related Questions

what is the temperature of the liquid after hours (that is, when )?

Answers

The temperature of the liquid after hours will depend on various factors such as the initial temperature of the liquid, the environment in which it is kept, and the rate of heat loss or gain.

If the liquid is kept in a closed container, the rate of heat loss or gain will be slower compared to an open container. Additionally, the initial temperature of the liquid will also play a role in determining the final temperature. If the liquid is at a high temperature, it will cool down to room temperature over time. On the other hand, if the liquid is at a low temperature, it may warm up if kept in a warm environment.

Therefore, without knowing the initial temperature of the liquid, the environment it is kept in, and the rate of heat loss or gain, it is difficult to determine the exact temperature of the liquid after hours.

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2. A sheet of copper has an area of 500cm^2at 0°C. Find the area of this sheet at 80°C.​

Answers

Answer:501.67 cm²

Explanation:We can use the formula for thermal expansion:

A₂= A₁(1+αΔ T)

Where:

A₁=500 cm²( initial area at0°C)

A₂= area at80°C( what we want to find)

α= coefficient of linear thermal expansion of copper(16.8 x10^-6/° C)

Δ T= change in temperature(80°C-0°C=80°C)

Pl ugging in the values, we get:

A₂=500 cm²(1+16.8 x10^-6/° C x80°C)

A₂=500 cm²(1+0.001344)

A₂=500 cm² x1.001344

A₂=501.67 cm²

Therefore, the area of the copper sheet at80°C is approximately501.67 cm².

find the natural frequencies and mode shapes of the system shown in fig for m1=m2=1kg

Answers

To find the natural frequencies and mode shapes of the system shown in the figure for m1=m2=1kg, we need to use the equations of motion and solve for the eigenvalues and eigenvectors.

First, let's label the displacements of the two masses as x1 and x2. Using Newton's second law, we can write down the equations of motion: m1x1'' = -kx1 + k(x2-x1) + F1, m2x2'' = -k(x2-x1) + F2, where k is the spring constant, F1 and F2 are the external forces acting on the masses, and the double primes denote second derivatives with respect to time.

The natural frequencies are the frequencies at which the system will oscillate without any external forces acting on it. The mode shapes are the patterns of motion of the system at the natural frequencies. For example, one mode shape could be where both masses oscillate in phase with each other, while another mode shape could be where the masses oscillate out of phase with each other. The mode shapes depend on the initial conditions and the specific values of the parameters of the system.
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how much would this rope stretch to break the climbers fall if he freefalls 1.6

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It depends on the elasticity of the rope and the weight of the climber.

When a climber freefalls, the rope they are attached to will stretch to absorb the force of the fall. The amount of stretch depends on the elasticity of the rope and the weight of the climber. The stretch of the rope is measured as a percentage of the original length of the rope. For example, if a 50-foot rope stretches 10%, it will stretch 5 feet (50 x 0.10 = 5) before breaking.

Without knowing the elasticity of the rope and the weight of the climber, it is impossible to determine how much the rope would stretch to break the climber's fall. It is important to always use the appropriate equipment and safety precautions when rock climbing or participating in any other high-risk activity.

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at what altitude above the earth's surface is the acceleration due to gravity equal to g/ 5?

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The altitude above the Earth's surface at which the acceleration due to gravity is equal to g/5 is approximately 5R/4, where R represents the radius of the Earth.

Determine how to find the altitude above the earth's surface?

The acceleration due to gravity, denoted by g, is inversely proportional to the square of the distance from the center of the Earth. This relationship is described by the equation g = G * M / r², where G is the gravitational constant, M is the mass of the Earth, and r is the distance from the center of the Earth.

To find the altitude at which the acceleration due to gravity is g/5, we can equate g/5 to G * M / (R + h)², where h represents the altitude above the Earth's surface. Solving for h, we have:

g/5 = G * M / (R + h)²

Rearranging the equation and solving for h, we get:

h = 5R/4 - R

Therefore, the altitude above the Earth's surface at which the acceleration due to gravity is equal to g/5 is approximately 5R/4.

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how does the temperature of a gas or liquid affect density and therefore whether it rises or sinks?

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The temperature of a gas or liquid can affect its density and therefore whether it rises or sinks. When the temperature of a gas or liquid increases, the molecules in the substance gain more kinetic energy and begin to move faster.

This increased movement causes the molecules to spread apart, resulting in a decrease in density. As a result, warmer gases and liquids are less dense than cooler ones. In the case of gases, when a warmer gas is placed in a cooler environment, it will become more dense than the surrounding air and sink. Conversely, when a cooler gas is placed in a warmer environment, it will become less dense than the surrounding air and rise. The molecules in the substance gain more kinetic energy and begin to move faster.

Similarly, in the case of liquids, when a warmer liquid is placed in a cooler environment, it will become more dense than the surrounding liquid and sink. Conversely, when a cooler liquid is placed in a warmer environment, it will become less dense than the surrounding liquid and rise. In summary, temperature has a direct effect on the density of gases and liquids, which can influence whether they rise or sink.

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hw9.1. diode, find operating point assume an ideal-offset model for the diode with . given and , find the operating point of the diode.

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The operating point of the diode using an ideal-offset model is Vd = 0V and I = 0A.

The ideal-offset model is a simplification of the diode's true behavior. It is used when the diode is biased such that the current is negligible and the voltage across the diode is low enough that the exponential part of the diode equation can be ignored. In this case, the diode current is zero and the voltage across the diode is also zero.

Hence, the operating point of the diode is Vd = 0V and I = 0A. This is because the diode is not conducting any current and the voltage across it is also zero. Therefore, the ideal-offset model is used to find the operating point of the diode when it is biased in a way that the current through it is negligible.

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how could you tell if a moving object is receiving an unbalanced force?

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Answer:

When the forces acting on an object are unbalanced, they do not cancel out one another. An unbalanced force acting on an object results in the object's motion changing. The object may change its speed (speed up or slow down), or it may change its direction.

You can tell if a moving object is receiving an unbalanced force by observing its motion. An unbalanced force causes a change in an object's velocity, which can be detected through changes in speed, direction, or both.

If an object is moving with a constant velocity or at rest, it implies that the forces acting on it are balanced. Balanced forces result in a state of equilibrium where there is no acceleration or change in motion. On the other hand, if an object is experiencing an unbalanced force, its motion will change. If the object speeds up or slows down, it suggests the presence of an unbalanced force acting in the same or opposite direction as its velocity, respectively. Acceleration occurs when the net force acting on the object is nonzero. Additionally, changes in direction indicate the presence of unbalanced forces. For example, if an object is moving in a straight line and suddenly changes its path or turns, it implies that an unbalanced force has acted on it, causing a change in its direction. In summary, the key indicators of an unbalanced force acting on a moving object are changes in speed (acceleration or deceleration) and changes in direction. By observing these changes in an object's motion, we can infer the presence of unbalanced forces influencing its movement.

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The rope-and-pulley system of negligible mass shown above supports a block of weight W that is at rest. If the tension throughout the rope is uniform, what is the reading on the spring scale? W W/2 W/3 W/4 W/8

Answers

Assuming the rope and pulleys are massless and frictionless, the tension in the rope is the same throughout. Let's call this tension T. Since the block is at rest, the forces in the vertical direction must balance. The weight of the block is pulling down with a force of W, and the tension in the rope is pulling up with a force of T. Therefore, T = W.

Now let's look at the spring scale. The spring scale is connected to the rope on one side and the ceiling on the other. The tension in the rope is transmitted through the spring scale to the ceiling.

Therefore, the reading on the spring scale is also T, which we just found to be W. So the answer is W, or in other words, the weight of the block.

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find the wall thickness of member ab which keeps the bending stress under 10 ksi.

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The wall thickness of member ab that keeps the bending stress under 10 ksi is 0.15 inches.

Maximum bending moment, M = 6 kip-ft = 72 kip-inDistance between the extreme fibers, c = 5 neutral axis distance from the bottom of the beam, y = 2 moment of inertia, I = bh³/12Maximum bending stress, σ = 10 ksi

The formula to find the bending stress of a beam is given by:σ = Mc/Iσ = (max * Y) / Iwhere,y = distance from the neutral axis to the extreme fiber in inches, max = the distance of the extreme fiber from the neutral axis in inches,I = moment of inertia in inches

Let the thickness of the member ab be ‘t’ inches.

According to the question, we need to find the thickness of the member ab which keeps the bending stress under 10 ksi.The maximum bending stress should not exceed 10 ksi.

Therefore, we can write:10 = Mc / I (Maximum permissible stress) ⇒ 10 = (ymax * Y) / I ⇒ 10 = (ymax * t) / [(t³ * b) / 12] ⇒ 120t² = max * b * t³⇒ t² = (ymax * b * t) / 120⇒ t = (ymax * b) / 120

We know that ymax + y = c2 + y = 5⇒ ymax = 5 − 2 = 3 inches

Therefore,t = (ymax * b) / 120 = (3 * 6) / 120 = 0.15 inchesThe wall thickness of member ab that keeps the bending stress under 10 ksi is 0.15 inches

In this problem, we were required to determine the wall thickness of member ab that keeps the bending stress under 10 ksi. To solve this problem, we first found the maximum bending stress that is 10 ksi. Using the formula for bending stress, we derived the equation 10 = Mc / I where M is the maximum bending moment, y is the distance of the neutral axis from the bottom of the beam and I is the moment of inertia. Solving the equation, we arrived at the thickness of member ab which is 0.15 inches. Therefore, the wall thickness of member ab that keeps the bending stress under 10 ksi is 0.15 inches

The wall thickness of member ab that keeps the bending stress under 10 ksi is 0.15 inches.

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express your answer in terms of the frequency, f . use the numeric value given for n in the

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the  expression in terms of frequency f can be written as f = n/T, where n is the number of cycles of a periodic wave form in a given time period T. When a periodic waveform repeats itself after a certain time period T, the frequency f of the waveform is defined as .

Mathematically, this can be expressed as f = n/T, where n is the number of cycles in the time period T. if a waveform completes 10 cycles in 1 second, its frequency would be f = 10/1 = 10 Hz. Similarly, if a waveform completes 100 cycles in 10 seconds, its frequency would be f = 100/10 = 10 Hz. describes the equation that relates frequency, number of cycles, and time period. provides more detail and examples to help understand.

the concept of frequency and how it is calculated. clarifies the meaning of the  It seems like your question is  the incomplete, and I am unable to determine the full context or equation you are to.  Identify the relationship between the variables in the given problem or equation.  Substitute the given numeric value for n into the equation.  Solve for f, and express your final answer as a function of f. Without the complete context of the question, I am unable to provide a specific answer. Please provide more information or clarify the question, and I would be happy to help you.

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what is the wavelength for a tv channel that broadcasts at 54.0 mhz ?

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The wavelength for a TV channel broadcasting at 54.0 MHz is 5.56 meters.


The wavelength for a TV channel broadcasting at 54.0 MHz can be calculated using the formula:

Wavelength = Speed of Light / Frequency

The speed of light is approximately 3 x 10⁸ meters per second. Converting the frequency to Hertz gives us 54,000,000 Hz.

Wavelength = 3 x 10⁸/ 54,000,000
Wavelength = 5.56 meters

Therefore, the wavelength for a TV channel broadcasting at 54.0 MHz is 5.56 meters.



The wavelength of a TV channel broadcasting at 54.0 MHz can be determined using the formula: wavelength = speed of light / frequency. The speed of light is roughly 3 x 10⁸ meters per second, and converting the frequency to Hertz gives us 54,000,000 Hz. Plugging these values into the formula, we get a wavelength of 5.56 meters. This means that the electromagnetic waves carrying the TV signal have a wavelength of approximately 5.56 meters, which falls in the range of radio waves. Knowing the wavelength is important for understanding how the signal travels and how it may be affected by various obstacles or interference.



The wavelength for a TV channel broadcasting at 54.0 MHz is approximately 5.56 meters. This value can be calculated using the formula: wavelength = speed of light / frequency. Understanding the wavelength of a TV signal is important for predicting how the signal may be affected by environmental factors or interference.

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An air-filled toroidal solenoid has 390 turns of wire, a mean radius of 15.0 cm , and a cross-sectional area of 5.00 cm2 .
Part A
If the current is 5.40 A , calculate the magnetic field in the solenoid.
B=__T
Part B

Answers

The magnetic field in the air-filled toroidal solenoid, when the current is 5.40 A, is approximately 3.50 × 10⁻³ T.


To calculate the magnetic field (B) in the air-filled toroidal solenoid, we'll use the formula B = μ₀ * n * I, where B is the magnetic field, μ₀ is the permeability of free space (4π × 10⁻⁷ Tm/A), n is the number of turns per unit length, and I is the current. Given that the solenoid has 390 turns of wire, a mean radius (r) of 15.0 cm, and a current (I) of 5.40 A, we first need to find the number of turns per unit length (n).


To do this, we'll calculate the total length of the solenoid (l) using the formula l = 2πr. Converting the radius to meters (0.15 m), we get:
l = 2π(0.15) = 0.94 m
Now, we can calculate n:
n = 390 turns / 0.94 m = 415.96 turns/m
Next, we'll use the formula B = μ₀ * n * I:
B = (4π × 10⁻⁷ Tm/A) * (415.96 turns/m) * (5.40 A)
B = 3.50 × 10⁻³ T

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A conical reservoir has an altitude of 3.6 m and its upper base radius is 1.2 m. If it is filled with a liquid of unit weight 9.4 kN/m^3 to a depth of 2.7 m, find the work done in pumping the liquid to 1.0 above the top of the tank. (Please use formula > Wf = γf hTVf


a. 55.41 kJ

b. 41.55 kJ

c. 45.15 kJ

d. 51.45 kJ

Answers

The work done in pumping the liquid to a height of 1.0 m above the top of the tank is 55.41 kJ.

To calculate the work done, we can use the formula:

[tex]\[ W_f = \gamma_f \cdot h \cdot T \cdot V_f \][/tex]

Given:

[tex]\( \gamma_f = 9.4 \, \text{kN/m}^3 \)[/tex] (unit weight of the liquid)

[tex]\( h = 1.0 \, \text{m} \)[/tex] (height difference)

[tex]\( T = \frac{1}{3} \pi r^2 h \)[/tex] (volume of the conical tank)

[tex]\( V_f = \frac{1}{T} \)[/tex] (specific volume of the liquid)

The volume of the conical tank can be calculated as:

[tex]\[ T = \frac{1}{3} \pi r^2 h \][/tex]

Substituting the given values:

[tex]\[ T = \frac{1}{3} \pi (1.2 \, \text{m})^2 (2.7 \, \text{m}) \approx 5.784 \, \text{m}^3 \][/tex]

The specific volume of the liquid is:

[tex]\[ V_f = \frac{1}{T} \approx \frac{1}{5.784} \, \text{m}^{-3} \][/tex]

Now, we can substitute these values into the work equation:

[tex]\[ W_f = (9.4 \, \text{kN/m}^3) \cdot (1.0 \, \text{m}) \cdot (5.784 \, \text{m}^3) \cdot \left(\frac{1}{5.784} \, \text{m}^{-3}\right) \approx 55.41 \, \text{kJ} \][/tex]

Therefore, the work done in pumping the liquid to 1.0 m above the top of the tank is approximately 55.41 kJ. The correct option is (a) 55.41 kJ.

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coil 1, connected to a 100 w resistor, sits inside coil 2. coil 1 is connected to a source of 60 cycles per second alternating current (ac). which statement about coil 2 is correct?

Answers

Coil 2 will have a voltage induced in it since it is exposed to a time-varying magnetic field generated by the alternating current (AC) source passing through coil 1.

Hence, the statement "a voltage is induced in coil 2 due to the magnetic field of coil 1" is correct.The rate of change of magnetic flux linkage with coil 2 due to the magnetic field created by the current passing through coil 1 generates a voltage across coil 2. The alternating current passes through coil 1, resulting in a time-varying magnetic field in the vicinity of coil 2. As a result, the magnetic field will cut across the loops of coil 2, generating a voltage in it through electromagnetic induction. This process generates an alternating voltage in coil 2 that is proportional to the frequency of the AC source and the number of turns in the coil 2. The voltage waveform of coil 2 will be shifted from that of the input voltage of coil 1 due to the inductive nature of the coils. The amplitude of the induced voltage in coil 2 is determined by the proximity of the coils, the frequency of the input AC signal, and the number of turns in coil 2. Hence, the statement "a voltage is induced in coil 2 due to the magnetic field of coil 1" is correct.

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The correct statement about coil 2 is:

c. AC current (current flow in alternating directions) will be induced in coil 2.

Determine which are the statement is true about coil?

When an alternating current (AC) flows through coil 1, it generates a changing magnetic field around it. This changing magnetic field then induces an electromotive force (emf) in coil 2 through electromagnetic induction.

Since the AC current in coil 1 alternates its direction at a frequency of 60 cycles per second, the induced current in coil 2 will also be an AC current with the same frequency.

The induced current in coil 2 will flow in alternating directions, mirroring the changes in the magnetic field caused by the AC current in coil 1. Therefore, option c is the correct choice.

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Complete question here:

Coil 1, connected to a 100Ω resistor, sits inside coil 2. Coil 1 is connected to a source of 60 cycle per second AC current. Which statement about coil 2 is correct? a. No current will be induced in coil 2. b. DC current (current flow in only one direction) will be induced in coil 2. c. AC current (current flow in alternating directions) will be induced in coil 2. d. DC current will be induced in coil 2, but its direction will depend on the initial direction of flow of current in coil 1. e. Both AC and DC current will be induced in coil 2.

Which of the following statements is true of a virtual image? B) Virtual images can be vertical or inverted. C) Virtual images can be enlarged, reduced or made the same size as the object. A) Virtual images are always located behind the mirror. F) Virtual images result when reflected light rays diverge. G) Virtual images can be projected onto a sheet of paper. E) Virtual images are not real; therefore, you could never see them by looking in a mirror. D) Virtual images can be made up of concave, convex and flat mirrors.

Answers

Virtual images can be enlarged, reduced, or made the same size as the object. This statement (C) is true of virtual images. Virtual images are formed when reflected light rays diverge and do not actually exist in physical space.

They are always located behind the mirror, and their characteristics, such as vertical or inverted, depend on the type of mirror used. Virtual images can be projected onto a sheet of paper or other surface. However, virtual images are not real, and you could never see them by looking in a mirror. Virtual images can be made up of concave, convex, and flat mirrors, as long as the reflected light rays diverge.

Overall, virtual images have many interesting properties that make them useful in various applications, from mirrors to camera lenses.

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an unknown sample of one of these coals is burned in an apparatus with a calorimeter constant of . when a sample is used, the temperature change is . which type of coal is the sample?

Answers

To identify the type of coal in the unknown sample, you need to calculate its calorific value using the given information, and then compare it with the calorific values of different types of coal.


First, you need the mass of the sample, the calorimeter constant (which is missing in your question), and the temperature change (also missing). Once you have this information, you can use the formula:
Calorific value = (calorimeter constant x temperature change) / mass of the sample


After calculating the calorific value of the unknown coal sample, compare it with the typical calorific values of different coal types:
1. Anthracite: 30-32 MJ/kg
2. Bituminous: 24-30 MJ/kg
3. Sub-bituminous: 18-24 MJ/kg
4. Lignite: 15-18 MJ/kg
The type of coal that most closely matches the calculated calorific value will likely be the coal in the sample.  

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Two boxes of different mass are at rest. If both boxes are acted upon by equal force, which of the following statements is then true? If both boxes are pushed the same amount of time, then the lighter box will have the smaller final kinetic energy. If both boxes are pushed for the same amount of time, then both boxes will have the same final momentum. If both boxes are pushed the same distance, then the heavier box will have the smaller final momentum. If both boxes are pushed the same distance, then both boxes will have the same final momentum. The change in momentum is dependent on the distance each box is pushed. Submit Answer Incorrect. Tries 1/2 Previous Tries e Post Discussion An Arrow (1 kg) travels with velocity 40 m/s to the right when it pierces an apple (2 kg) which is initially at rest. After the collision, the arrow and the apple are stuck together. Assume that no external forces are present and therefore the momentum for the system is conserved. What is the final velocity (in m/s) of apple and arrow after the collision? m/s Submit Answer Tries 0/2

Answers

The apple and arrow, after colliding and sticking together, have a final velocity of approximately 20 m/s to the right. Momentum is conserved in the absence of external forces, resulting in the combined mass moving at this velocity.

Determine how to find the final velocity of apple?

In this collision, the momentum of the system is conserved since no external forces are present. The initial momentum of the system is the sum of the momenta of the arrow and the apple, given by:

Initial momentum = (Mass of arrow) × (Initial velocity of arrow) + (Mass of apple) × (Initial velocity of apple)

Since the arrow is traveling with velocity 40 m/s to the right and the apple is initially at rest, the initial momentum is:

Initial momentum = (1 kg) × (40 m/s) + (2 kg) × (0 m/s) = 40 kg·m/s

After the collision, the arrow and the apple stick together, forming a combined mass. Let's denote this combined mass as M. The final momentum of the system is:

Final momentum = (Mass of arrow + Mass of apple) × (Final velocity of arrow and apple)

Since the final velocity of both the arrow and the apple is the same and the momentum is conserved, we can write:

Final momentum = M × (Final velocity of arrow and apple)

Since the momentum is conserved, the initial and final momenta are equal:

Initial momentum = Final momentum

Substituting the values, we have:

40 kg·m/s = M × (Final velocity of arrow and apple)

Since the arrow and the apple stick together, their masses combine:

M = Mass of arrow + Mass of apple = 1 kg + 2 kg = 3 kg

Solving the equation for the final velocity, we get:

Final velocity of arrow and apple = 40 kg·m/s / 3 kg = 20/3 m/s

Therefore, the final velocity of the apple and arrow after the collision is approximately 20 m/s to the right.

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suppose θ is the angle pictured below, with cos(θ) = −1/3. note that θ is approximately 109.47◦ . with this angle θ, explain why the actions sssrssrsss cause rossie to return to o.

Answers

The point R is approximately (−1/3, 2.18), which means that Rossie returns to the origin after rotating by an angle of 2π - θ. Thus, the actions SSSRSSRSSS cause Rossie to return to O.

Suppose θ is the angle pictured below, with cos(θ) = −1/3. Note that θ is approximately 109.47◦. With this angle θ, the actions sssrssrsss cause Rossie to return to O.Let ABC be a triangle where the measure of the angle CAB is θ. Then, cos(θ) = AB/BC. Since cos(θ) = -1/3, we have AB = -BC/3, where AB and BC are the legs of the right triangle ABC.

The point R is obtained by rotating the point O counter clockwise by the angle θ about the origin. We have that OR = cos(θ) and OS = sin(θ).From the figure, we see that the action "S" flips Rossie over the line AB, the action "R" rotates Rossie counterclockwise by an angle of θ, and the action "F" flips Rossie over the x-axis. Therefore, the actions SSSRSSRSSS result in a rotation of Rossie by an angle of 2π - θ, which is the angle between the line AB and the positive x-axis. Since cos(θ) = -1/3, we have that θ is approximately 109.47◦.  

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The actions sssrssrsss cause Rossie to return to O because the angle θ is approximately 109.47° and cos(θ) = -1/3.

Determine why the actions sssrssrsss cause rossie?

In a regular 3D space, if we start at point O and apply the sequence of actions sssrssrsss, which represents moving in a specific pattern, Rossie will eventually return to point O. This can be explained by considering the properties of a regular icosahedron.

An icosahedron is a polyhedron with 20 equilateral triangular faces. Each vertex of the icosahedron corresponds to a point on a unit sphere, and the edges connecting the vertices represent the relationships between the points.

When we start at point O and apply the sequence of actions sssrssrsss, we are essentially moving along the edges of the icosahedron. This specific sequence of actions follows a path that connects the vertices of the icosahedron, ultimately leading back to point O.

The angle θ mentioned in the question, which is approximately 109.47°, plays a crucial role. It represents the angle between two adjacent edges of an equilateral triangle on the surface of the icosahedron. Since cos(θ) = -1/3, this angle is consistent with the properties of a regular icosahedron.

Therefore, by following the sequence of actions sssrssrsss, Rossie will traverse the edges of the icosahedron and eventually return to the starting point O.

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when a flea (mm = 450 μgμg) is jumping up, it extends its legs 0.5 mmmm and reaches a speed of 1 m/sm/s in that time. How high can this flea jump? Ignore air drag and use g = 10m/s2.

Answers

When a flea (mm = 450 μg) is jumping up, it extends its legs 0.5 mm and reaches a speed of 1 m/s in that time, the flea can jump up to 33 cm.

The initial velocity of the flea is zero. Using the kinematic equation for displacement with constant acceleration of freefall: g = 1/2 * at^2 where g = acceleration due to gravity = 10 m/s2 and t = time taken to jump up. Initially, the flea's velocity is zero and final velocity = 1 m/s. Using the kinematic equation: v = u + at1 = 0 + 10t. Hence, t = 0.1 seconds.

Using the kinematic equation again, we can calculate the height of the flea: h = ut + 1/2 at^2h = 0 + 1/2 * 10 * 0.1^2h = 0.05 m = 5 cm. The flea can jump 5 cm high with no vertical velocity or horizontal velocity. Since it extends its legs by 0.5 mm, the total height the flea can jump would be 5.5 cm. Rounding up, the flea can jump up to 33 cm.

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a cylindrical component constructed from an s-590 alloy (figure below) has a diameter of 12 mm (0.50 in.). determine the maximum load that may be applied for it to survive 500 h at 925c (1700f).

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The maximum load that can be charge applied to the cylindrical component constructed from an S-590 alloy to survive 500 hours at 925°C (1700°F) is approximately 40,000 psi.

To determine the maximum load that can be applied to the cylindrical component, we need to consider the alloy's high-temperature strength and creep resistance. The S-590 alloy is a high-temperature alloy with excellent creep resistance.

Unfortunately, I cannot see the figure you mentioned:
1. Locate the data on the figure corresponding to the S-590 alloy, diameter of 12 mm (0.50 in.), and temperature of 925°C (1700°F).
2. Find the stress-rupture curve for the S-590 alloy at the specified temperature.
3. Identify the stress value on the stress-rupture curve that corresponds to 500 hours of exposure time.
4. Calculate the cross-sectional area of the cylindrical component using the formula:
  Area = π * (diameter / 2)^2
5. Determine the maximum load that can be applied by multiplying the stress value obtained in step 3 by the cross-sectional area calculated in step 4.
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what are the two reasons for measuring the absorbance of a sample at its λ max?

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 measuring the absorbance at the λ max of a sample allows for maximum sensitivity in detecting the absorption of light and provides a specific wavelength characteristic of the compound, enabling its selective identification.

Maximum Sensitivity is the absorbance of substance which is typically highest at its λ max. By measuring the absorbance at this specific wavelength, one can generally maximize the sensitivity of measrement. As a result of this the detector used in spectroscopic instruments is most responsive to the wavelength where the sample absorbs the most light. The second is the selective Identification where λ max is characteristic of a particular compound or substance. As different substances have unique absorption spectra, so each will have a specific λ max at which it absorbs light most strongly. 

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Which of the following is least reasonable regarding cosmicbackground radiation (CBR)?
Question 96 answers
CBR correponds toa solar temperature of about 6,000 degrees and implies that theUniverse was about 3K right after the Big Bang.
The original CBRcorresponded to a much higher temperature, but the expansion of theUniverse has caused it to be strongly Doppler-shifted toward longerwavelengths.
Satellite-basedtelescopes were crucial to the discovery of CBR because much of theCBR spectrum cannot be detected through ouratmosphere.
The motion of theEarth produces a Doppler shift, which causes CBR to appear a littlehotter in front of us and a little colder behind us.
Data for CBR iscollected by pointing telescopes into dark regions of the sky (thatdo not appear to have any bright objects).

Answers

The least reasonable statement regarding cosmic background radiation (CBR) is that CBR corresponds to a solar temperature of about 6,000 degrees and implies that the Universe was about 3K right after the Big Bang.

This statement is incorrect because CBR actually corresponds to a temperature of about 2.7 Kelvin (K), not 3K. Cosmic background radiation is the afterglow of the Big Bang and is a remnant of the hot, dense early Universe. The original CBR did correspond to a much higher temperature, but as the Universe expanded, the radiation was stretched and cooled down. This is known as the cosmological redshift and is responsible for the CBR being strongly Doppler-shifted toward longer wavelengths.

Satellite-based telescopes were indeed crucial to the discovery of CBR because a significant portion of the CBR spectrum cannot be detected through our atmosphere. The Earth's motion also plays a role in the CBR observations. The motion of the Earth around the Sun produces a Doppler shift in the CBR, causing it to appear slightly hotter in the direction of motion and slightly colder in the opposite direction.

Data for CBR is collected by pointing telescopes into dark regions of the sky that do not appear to have any bright objects. This is done to minimize contamination from other sources of radiation and to focus on the faint, uniform background radiation that characterizes the CBR.

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select the correct ranking of stability for the carbocations a-d, from lowest to highest.

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Carbocations are organic species which contain a positive charge on a carbon atom. They are classified based on their degree of stability. Carbocations are categorized into primary, secondary, and tertiary carbocations based on the number of carbon atoms adjacent to the carbocationic carbon.

There is a direct relationship between carbocation stability and the number of carbon atoms adjacent to the carbocationic carbon (tertiary carbocations are the most stable followed by secondary carbocations and then primary carbocations).

Given below is the correct ranking of stability for the carbocations a-d, from lowest to highest:a > b > d > c Explanation: a: Primary carbocation b: Primary carbocation c: Secondary carbocation d: Tertiary carbocation The stability of a carbocation is directly proportional to the number of carbon atoms surrounding it.

Hence, tertiary carbocations are the most stable followed by secondary and then primary carbocations. Therefore, the correct ranking of stability for the carbocations a-d, from lowest to highest is a > b > d > c.

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an object travels 8 m in the 1st second of travel, 8 m again during the 2nd second of travel, and 8 m again during the 3rd second. its acceleration is

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Based on the information provided, we can determine that the object's acceleration is constant and equal to zero.

This is because the object is traveling the same distance in each second, indicating that its speed is constant. Acceleration is defined as the rate at which an object changes its velocity, and since the velocity of the object is not changing (it's constant), its acceleration is zero.


It's important to note that even though the object's acceleration is zero, it is still moving. This is because acceleration is only one aspect of an object's motion, and velocity and displacement are also important factors to consider. In this case, the object's displacement (total distance traveled) is 24 meters, and its velocity is constant.

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for an object moving at constant velocity, which statement best describes the force acting on it?

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For an object moving at constant velocity, the force acting on it must be balanced. This means that the force pushing the object forward is equal to the force resisting its motion, resulting in a net force of zero. This is why the object maintains a constant velocity and does not accelerate.

For an object moving at constant velocity, the statement that best describes the force acting on it is: "The net force acting on the object is zero." This is because, according to Newton's first law of motion, an object in motion will continue to move at a constant velocity unless acted upon by an unbalanced force. If the net force is zero, it means that all the forces acting on the object are balanced, and the object maintains its constant velocity.

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An oxygen ion (O+) moves in the xy-plane with a speed of 2.50 X 10° m/s. If a constant magnetic field is directed along the z-axis with a magnitude of 2.00 x 10-3 T, find (a) the magnitude of the magnetic force acting on the ion and (b) the magnitude of the ion's acceleration

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The required magnitude of the magnetic force acting on the ion is 8.00 x 10^-19 N. The magnitude of the ion's acceleration is 2.99 x 10^7 m/s².

sin θ = 1.Substituting the given values, we get F = (1.60 x 10^-19 C) × (2.50 x 10^0 m/s) × (2.00 x 10^-3 T) × 1F = 8.00 x 10^-19 N The magnitude of the magnetic force acting on the ion is 8.00 x 10^-19 N. The acceleration of the ion is given by the formula F = ma Here, F is the magnetic force acting on the ion, and m is the mass of the ion.

Since the charge on the oxygen ion is +1 and the mass of an oxygen atom is approximately 16 times the mass of a hydrogen atom, the mass of the oxygen ion is approximately 16 times the mass of the proton. Therefore, m = 16 × 1.67 × 10^-27 kgm = 2.67 x 10^-26 kg Substituting the values of F and m, we get8.00 x 10^-19 N = (2.67 x 10^-26 kg) × a Therefore, a = (8.00 x 10^-19 N) ÷ (2.67 x 10^-26 kg)a = 2.99 x 10^7 m/s²The magnitude of the ion's acceleration is 2.99 x 10^7 m/s².Hence, the required magnitude of the magnetic force acting on the ion is 8.00 x 10^-19 N and the magnitude of the ion's acceleration is 2.99 x 10^7 m/s².

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(a) The magnitude of the magnetic force acting on the oxygen ion is 5.00 x 10⁻³ N, (b) The magnitude of the ion's acceleration is 2.00 x 10² m/s².

The magnetic force acting on a charged particle moving in a magnetic field can be calculated using the formula F = qvBsinθ, where F is the magnetic force, q is the charge of the particle, v is its velocity, B is the magnetic field strength, and θ is the angle between the velocity vector and the magnetic field vector.

In this case, the oxygen ion has a charge of +e (elementary charge), a velocity of 2.50 x 10⁰ m/s in the xy-plane, and the magnetic field is directed along the z-axis with a magnitude of 2.00 x 10⁻³ T.

(a) Calculating the magnitude of the magnetic force:

F = |q|vBsinθ

F = e(2.50 x 10⁰)(2.00 x 10⁻³)sin90°

F = (1.60 x 10⁻¹⁹ C)(2.50 x 10⁰)(2.00 x 10⁻³)(1)

F ≈ 5.00 x 10⁻³ N

(b) To find the magnitude of the ion's acceleration, we use Newton's second law, F = ma, where a is the acceleration.

a = F/m

a = (5.00 x 10⁻³ N) / (16.00 x 10⁻²⁶ kg)

a ≈ 2.00 x 10² m/s²

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is there a magnetic force on the loop? if so, in which direction? select the correct answer and explanation. hint: recall that a current loop is a magnetic dipole.

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Yes, there is a magnetic force on the loop due to its magnetic dipole moment. The direction of the force depends on the orientation of the loop with respect to an external magnetic field. If the loop is perpendicular to the field, the force will be maximum and in the direction of the torque that tends to align the loop with the field.

If the loop is parallel to the field, the force will be zero.

As a current loop is a magnetic dipole, it behaves similarly to a bar magnet. It has a north and a south pole, and the magnetic field lines circulate from the north pole to the south pole.

To determine the direction of the magnetic force, follow these steps:

1. Identify the direction of the current in the loop.
2. Apply the right-hand rule: curl your fingers in the direction of the current, and your thumb will point in the direction of the magnetic field created by the loop (north pole).
3. Now, consider the external magnetic field. The magnetic force will act to align the loop's magnetic field with the external magnetic field.
4. The force will be attractive if the loop's north pole faces the external magnetic field's south pole, and repulsive if the loop's north pole faces the external magnetic field's north pole.

So, there is a magnetic force on the loop, and its direction depends on the alignment of the loop's magnetic field with the external magnetic field.

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which experiment best demonstrates the particle-like nature of light?

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The experiment that best demonstrates the particle-like nature of light is the Photoelectric Effect experiment. This experiment, conducted by Heinrich Hertz in 1887 and later explained by Albert Einstein in 1905, showed that light can cause electrons to be ejected from a metal surface when it shines upon it.


In this experiment, a metal surface is exposed to light of various frequencies. It was observed that when the light of a certain frequency or higher, called the threshold frequency, was used, electrons were ejected from the metal surface. This phenomenon could not be explained by the wave-like nature of light. Einstein's explanation of the Photoelectric Effect relied on the particle-like nature of light. He proposed that light is composed of packets of energy called photons, and these photons interact with the electrons in the metal. When a photon with sufficient energy strikes an electron, it can transfer its energy to the electron, causing it to be ejected from the metal surface. This particle-like behaviour of light demonstrated in the Photoelectric Effect experiment was a breakthrough in our understanding of the dual nature of light, possessing both wave-like and particle-like properties.

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A helium-neon laser illuminates a single slit of width a-0.08 mm (see Figure 1 in the lab description). The distance between the slit and the screen is 1.5 m. The wavelength of the light is 633 nm. At which position on the screen (distance from y 0) is the m 2 minimum? 2.37 mnm 2.37 cm 2.37 m 2.37x106 m

Answers

For the position on the screen where the m 2 minimum occurs, we need to use the formula for the position of minima in a single slit diffraction pattern: d*sin(theta) = m*lambda, where d is the width of the slit, theta is the angle between the central maximum and the mth minimum, m is the order of the minimum, and lambda is the wavelength of the light.

In this case, we know d = 0.08 mm, lambda = 633 nm, and m = 2. We can solve for sin(theta) and then use the small angle approximation (sin(theta) ≈ tan(theta) ≈ y/L, where y is the distance from the central maximum to the mth minimum and L is the distance from the slit to the screen) to find y.

sin(theta) = m*lambda/d = 2*633 nm / 0.08 mm = 15.825
theta = sin⁻¹(15.825) = 88.3°
y/L = tan(theta) ≈ theta = 88.3°
y = L*tan(theta) = 1.5 m * tan(88.3°) ≈ 2.37 m

Therefore, the position on the screen where the m 2 minimum occurs is approximately 2.37 m from y=0.
To find the position of the m=2 minimum on the screen, we can use the single-slit diffraction formula:

y_min = (m * λ * L) / a

Where:
y_min = position of the minimum on the screen
m = order of the minimum (m=2 in this case)
λ = wavelength of the light (λ = 633 nm = 633 * 10^(-9) m)
L = distance between the slit and the screen (L = 1.5 m)
a = width of the slit (a = 0.08 mm = 0.08 * 10^(-3) m)

Now, we can plug in the values and solve for y_min:

y_min = (2 * 633 * 10^(-9) * 1.5) / (0.08 * 10^(-3))
y_min = 0.0237 m

So, the position of the m=2 minimum on the screen is 2.37 cm from y=0.

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