A steel railroad track has a length of 30.000m when the temperature is 0.0∘C, the ends of the rail are rigidly clamped at 0.0∘C so that expansion is prevented. The thermal stress set up in the rail if its temperature is raised to 40.0∘C is

Answers

Answer 1

The thermal stress set up in the rail when its temperature is raised to 40.0∘C can be calculated using the formula:
Thermal Stress = (Coefficient of Linear Expansion) * (Change in Temperature) * (Young's Modulus)


To calculate the thermal stress, we need to know the coefficient of linear expansion and Young's modulus of the steel rail. Let's assume the coefficient of linear expansion is α and Young's modulus is Y.
Given that the length of the rail is 30.000m and the temperature change is from 0.0∘C to 40.0∘C, the change in temperature is 40.0∘C - 0.0∘C = 40.0∘C.
Assuming we have the values for α and Y, we can substitute them into the formula to calculate the thermal stress.
Thermal Stress = α * (Change in Temperature) * Y
Please provide the values for the coefficient of linear expansion (α) and Young's modulus (Y) for the steel rail so that we can calculate the thermal stress accurately.

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Related Questions

A binary phase diagram is a phase diagram indicating the phases of two metallic elements as a function of composition and temperature at atmospheric pressure. (a) true, (b) false

Answers

The given statement is true: "A binary phase diagram is a phase diagram indicating the phases of two metallic elements as a function of composition and temperature at atmospheric pressure."

A binary phase diagram is a two-dimensional graph that depicts the relationship between temperature, pressure, and the different phases that a metal undergoes. A binary phase diagram demonstrates the different phases of two components, metals, or alloys at various temperatures and compositions under atmospheric pressure.

A binary phase diagram is a graphical representation that depicts the phases of two elements as a function of composition and temperature under standard pressure. A vertical axis indicates temperature, while a horizontal axis indicates concentration.

Thus, a binary phase diagram shows how two components interact at various compositions and temperatures.In a binary phase diagram, the temperature, pressure, and concentration of the elements are represented. The diagram's individual areas indicate various phases in which the materials will exist under specific conditions. The graph depicts how the two metallic components will behave together when they are combined.

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The sound from a single source can reach point O by two different paths.One path is 20.0m long and the second path is 21.0m long.The sound destructively interferes at point O. What is the minimum frequency of the source if the speed of sound is 340m/s?
A. 340 Hz
B. 6800 Hz
C. 520 Hz
D. 170 Hz

Answers

The minimum frequency of the source if the sound destructively interferes at point O is 170 Hz. Therefore, option D is the correct answer.

When two sound waves of the same frequency encounter each other, they either amplify or cancel each other out based on the phase difference between them. The principle of superposition applies to waves; when two waves of the same frequency meet at a point, the displacement of the medium at that point is the sum of their individual displacements. When the displacements of the waves have the same magnitude but opposite directions, destructive interference occurs. For destructive interference to occur, the phase difference between the two waves must be 180°.

Destructive interference of two waves with equal amplitudes occurs when the path difference between the two waves is equal to an odd integer number of half-wavelengths (λ/2) of the waves. The shortest distance between two points is the straight line connecting them, so the difference in path length between the two waves can be calculated using the Pythagorean theorem. Using the values provided in the question:

Difference in Path Length = 21 m - 20 m = 1 m

For destructive interference, the difference in path length should be an odd integer multiple of half-wavelengths (λ/2) of the sound wave. The frequency of the sound wave can be calculated using the speed of sound and the wavelength of the wave: f = v/λ

Given:v = 340 m/s

λ/2 = 1 m ⇒ λ = 2 m

So, f = v/λ= 340 m/s / 2 m = 170 Hz

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Suppose that you measure the linear attenuation coefficent for lead as 1cm-1 for 1 MeV gamma-rays. What are the mass attenuation coefficent and cross section for lead at that energy?

Answers

The mass attenuation coefficient and cross-section for lead at 1 MeV are 0.088 cm²/g and 5.30 × 10⁻²² cm², respectively.

The linear attenuation coefficient is related to the mass attenuation coefficient (μ/ρ) by the density (ρ) of the material. Also, the mass attenuation coefficient (μ/ρ) is related to the cross-section (σ) for a particular process.σ = (μ/ρ) × NᴬWhere Nᴬ is Avogadro's number. For lead, the density is 11.35 g/cm³ and Avogadro's number is 6.0221 × 10²³ atoms/mole.

Therefore, the mass attenuation coefficient for lead will be;

μ/ρ = (1 cm⁻¹) ÷ (11.35 g/cm³)= 0.088 cm²/gσ = (0.088 cm²/g) × (6.0221 × 10²³ atoms/mole)= 5.30 × 10⁻²² cm²

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An object weighs 80 N in air and 60 N in water. If the density of water is po the density of the object p is Po a) 1.3 Po b) 6.0 po c) 4.0 Po d) 0.75 po e) 8.0 po

Answers

The weight of an object in a fluid is determined by the buoyant force acting on it, which is equal to the weight of the fluid displaced by the object. According to Archimedes' principle, the buoyant force is equal to the weight of the fluid displaced. (d) 0.75 ρo

In this case, the object weighs 80 N in air and 60 N in water. The weight difference of 20 N is equal to the buoyant force acting on the object in water.

The buoyant force can be calculated using the equation F_b = ρf × V × g, where F_b is the buoyant force, ρf is the density of the fluid, V is the volume of the object submerged in the fluid, and g is the acceleration due to gravity.

Since the volume of the object submerged in water is the same as its volume in air, we can set up the following equation: 20 N = ρf × V × g.

Dividing both sides of the equation by ρo × V × g (where ρo is the density of the object), we get 20 N / (ρo × V × g) = (ρf × V × g) / (ρo × V × g).

Simplifying, we find that ρf / ρo = 20 N / 60 N = 0.75.

Therefore, the density of water (ρf) is 0.75 times the density of the object (ρo), which corresponds to option (d) 0.75 ρo.

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the force acting on a particle in the x-y plane is g iven by f =2(xy)i what is the work done by this force as this particle moves along the path oac? (the purple path in the figure above)

Answers

The work done by this force as this particle moves along the path oac in the plane is 75 J.

The result of the dot product of the displacement and its component of force exerted by the object in the direction of displacement is what is known as the work done.

Coordinates of the force vector F = 2(xy)i

Coordinates of the displacement, d = xi + yj

The expression for the total work done is given by,

W = ∫F.ds

ds = dxi + dyj

So,

F. ds = 2(xy)i . (dxi + dyj)

F. ds = 2(xy)dx + 0

F. ds = 2(xy)dx

Therefore, the total work done can be given as,

W = ∫F. ds

W = ∫2(xy)dx

W = 2∫xydx

W = 2[∫(xdx) + ∫(ydx)]

W = 2 {[x²/2]₀⁵ + y[x]₀⁵}

W = 2(25/2 + 25)

W = 2 x 75/2

W = 75 J

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Relative to the ground, a car has a velocity of 17.3 m/s, directed due north. Relative to this car, a truck has a velocity of 23.0 m/s, directed 52.0° north of east. What is the magnitude of the truc

Answers

The

magnitude

of the truck's velocity

is approximately 22.783 m/s.

To solve this problem, we can break down the velocities into their x and y components.

The

car's velocity

is directed due north, so its

x-component is 0 m/s and its y-component is 17.3 m/s.

The truck's velocity is directed 52.0° north of east. To find its x and y components, we can use trigonometry. Let's define the

angle

measured counterclockwise from the positive x-axis.

The x-component of the truck's velocity can be found using the cosine function:

cos(52.0°) = adjacent / hypotenuse

cos(52.0°) = x-component / 23.0 m/s

Solving for the x-component:

x-component = 23.0 m/s * cos(52.0°)

x-component ≈ 14.832 m/s

The y-component of the truck's velocity can be found using the sine function:

sin(52.0°) = opposite / hypotenuse

sin(52.0°) = y-component / 23.0 m/s

Solving for the y-component:

y-component = 23.0 m/s * sin(52.0°)

y-component ≈ 17.284 m/s

Now, we can find the magnitude of the truck's velocity by using the

Pythagorean theorem

:

magnitude = √(x-component² + y-component²)

magnitude = √((14.832 m/s)² + (17.284 m/s)²)

magnitude ≈ √(220.01 + 298.436)

magnitude ≈ √518.446

magnitude ≈ 22.783 m/s

Therefore, the magnitude of the truck's

velocity

is approximately 22.783 m/s.

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Question 19 2 pts In an isothermal and reversible process, 945 J of heat is removed from a system and transferred to the surroundings. The temperature is 314 K. What is the change in entropy of the sy

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The change in entropy of the system is approximately 3.01 J/K.

Entropy is a measure of the randomness or disorder in a system. In an isothermal and reversible process, the temperature remains constant, and the change in entropy can be calculated using the formula
ΔS = -Q/T,
where Q is the heat transferred and
T is the temperature.

In this case, 945 J of heat is removed from the system, and the temperature is 314 K.

Substituting the values into the formula, we find that the change in entropy of the system is approximately 3.01 J/K.

This indicates an increase in the system's disorder or randomness due to the heat transfer.

The change in entropy of the system can be calculated using the formula
ΔS = -Q/T,
where ΔS is the change in entropy,
Q is the heat transferred, and
T is the temperature.

Given:

Q = -945 J (heat removed from the system)

T = 314 K (temperature)

Substituting the values into the formula, we have:

ΔS = -(-945 J) / 314 K

ΔS = 945 J / 314 K

Calculating this expression, we get:

ΔS ≈ 3.01 J/K

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The density of the liquid flowing through the horizontal pipe in the drawing is 1,173 kg/m3. The speed of the fluid at point A is 5.8 m/s while at point B it is 13.4 m/s. What is the difference in pressure, PB​−PA​, between points B and A ? Put the full number. Don't put answer in scientific notation

Answers

The difference in pressure between points B and A is 42,620.64 Pa.

Bernoulli's Principle states that the total mechanical energy of the fluid at a point in a pipe is the sum of the potential energy, kinetic energy, and pressure energy of the fluid. It states that when the speed of a fluid increases, its pressure decreases, and vice versa.

So, applying the Bernoulli's principle for points A and B, we have;

Pb + 1/2 * ρ * Vb² = Pa + 1/2 * ρ * Va²

Where,

Pb and Pa = pressure at point B and A, respectively.

ρ = density of the fluid.

Vb and Va = velocities at point B and A, respectively.

Rearranging the above equation, we get;Pb - Pa = 1/2 * ρ * (Va² - Vb²)

Substituting the given values in the above equation, we have;

Pb - Pa = 1/2 * 1,173 * (13.4² - 5.8²)= 1/2 * 1,173 * (179.56 - 33.64)= 1/2 * 1,173 * 145.92= 85,241.28 / 2= 42,620.64 Pa

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The difference in pressure between points B and A is 104892.66 Pa.  The difference in pressure between point B and point A can be determined using Bernoulli's equation.

Bernoulli's equation states that the total energy of a fluid in a horizontal pipe remains constant and it can be given by: P + 1/2 * ρ * v² = constant where P is the pressure, ρ is the density of the fluid and v is the velocity of the fluid. Let's calculate the pressures at points A and B: P_A + 1/2 * ρ * v_A² = P_B + 1/2 * ρ * v_B².

Rearranging the equation: PB - PA = 1/2 * ρ * (v_B² - v_A²)PB - PA = 1/2 * 1173 * (13.4² - 5.8²)PB - PA = 1/2 * 1173 * (179.56)PB - PA = 104892.66.

Therefore, the difference in pressure between points B and A is 104892.66 Pa.

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what is the power of the eye when viewing an object 57.0 cm away? assume the lens-to-retina distance is 2.00 cm , and express the answer in diopters.

Answers

The power of the eye when viewing an object 57.0 cm away is approximately 40 diopters.

The power of the eye when viewing an object 57.0 cm away can be calculated using the lens formula and then expressing the answer in diopters. The lens formula is given as1/f = 1/v - 1/uwhere f is the focal length of the eye lens, u is the distance of the object from the eye, and v is the distance of the image from the eye lens.

The power of the eye is given as P = 1/f. The distance of the image from the retina is given as v' = v - u, where u is the lens-to-retina distance. Hence, we can rewrite the lens formula as:1/f = 1/(u + v') - 1/u = (v' - u)/(u * v')Substituting u = 2.00 cm and v = 57.0 cm, we have:v' = v - u = 55.0 cm1/f = (v' - u)/(u * v') = (55.0 cm)/(2.00 cm * 55.0 cm) = 0.025 P.

The power of the eye is thus P = 1/f = 40 diopters (approximate). Therefore, the power of the eye when viewing an object 57.0 cm away is approximately 40 diopters.

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Please answer both as I am studying for finals and will give an upvote if both are answered.

A rock resting at the edge of a cliff is dropped over the edge. Ignoring friction, which of the following statements is false?

The potential energy increases as the kinetic energy decreases.

The potential energy decreases at the same rate as the kinetic energy increases.

The potential energy of the rock (relative to the ground) at the top is greater than the kinetic energy at the top.

The mechanical energy of the rock at the top is equal to the mechanical energy at the bottom.

A baseball has a mass of 0.400 kg and a gravitational potential energy of 235 J. When the baseball falls back to the ground at what speed does it hit the ground?

17.1 m/s

34.3 m/s

13.7 m/s

24.2 m/s

Answers

Regarding the first question:

The statement that is false is:

The potential energy decreases at the same rate as the kinetic energy increases.

Explanation: As the rock falls from the cliff, its potential energy decreases due to the decrease in height. At the same time, its kinetic energy increases as it gains speed. However, the rate at which potential energy decreases is not necessarily equal to the rate at which kinetic energy increases. The change in potential energy depends on the height change, while the change in kinetic energy depends on the change in velocity.

Regarding the second question:

The speed at which the baseball hits the ground is:

24.2 m/s

Explanation: The gravitational potential energy of the baseball is given as 235 J. As the ball falls to the ground, this potential energy is converted into kinetic energy. The equation relating gravitational potential energy (PE), mass (m), and height (h) is:

PE = m * g * h

Where g is the acceleration due to gravity (approximately 9.8 m/s^2). Rearranging the equation, we can solve for the height:

h = PE / (m * g)

Substituting the given values:

h = 235 J / (0.400 kg * 9.8 m/s^2)

h ≈ 60.2 m

Using the equation for the final velocity (v) of a falling object:

v = √(2 * g * h)

Substituting the known values:

v = √(2 * 9.8 m/s^2 * 60.2 m)

v ≈ 24.2 m/s

Therefore, the baseball hits the ground at a speed of approximately 24.2 m/s.

(1) The false statement is the potential energy decreases at the same rate as the kinetic energy increases.

(2) The speed of the ball when it falls to the ground is 34.3 m/s.

What happens when a rock resting at the edge of a cliff is dropped?

(1) The rock resting at the edge of a cliff has gravitational potential energy, when the rock is dropped over the edge, the gravitational potential energy decreases while the kinetic energy of the rock increases.

Thus, the false statement is the potential energy decreases at the same rate as the kinetic energy increases.

(2) The speed of the ball when it falls to the ground is calculated as follows;

K.E = P.E

¹/₂mv² = P.E

v² = 2P.E / m

v = √ ( 2P.E / m )

v =  √ ( 2 x 235 J / 0.4 kg)

v = 34.3 m/s

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Use work and energy to find an expression for the speed of the block in the following figure just before it hits the floor. (Figure 1) v Part A Find an expression for the speed of the block if the coefficient of kinetic friction for the block on the table is Express your answer in terms of the variables M, m, h, uk, and free fall acceleration g. IVALO ? U= Submit Request Answer Part B Find an expression for the speed of the block if the table is frictionless. Express your answer in terms of the variables M, m, h, and free fall acceleration

Answers

To find the speed of the block just before it hits the floor, we can use the conservation of energy principle. The initial energy of the system is the gravitational potential energy of the block, which is mgh. The final energy of the system is the kinetic energy of the block, which is 1/2 mv^2. Since there is no friction or other non-conservative forces, the initial and final energies are equal. Therefore, we have:

mgh = 1/2 mv^2

Solving for v, we get:

v = sqrt(2gh)

This is the expression for the speed of the block just before it hits the floor.

Part A

If there is friction between the block and the table, then some of the initial energy is lost as heat due to friction. The work done by friction is equal to the force of friction times the distance traveled by the block on the table, which is L. The force of friction is equal to the coefficient of kinetic friction times the normal force, which is Mg. Therefore, we have:

W_f = u_k Mg L

The final energy of the system is now reduced by this amount. Therefore, we have:

mgh - u_k Mg L = 1/2 mv^2

Solving for v, we get:

v = sqrt(2gh - 2u_k g L)

This is the expression for the speed of the block if there is friction on the table.

Part B

If the table is frictionless, then there is no work done by friction and the initial and final energies are equal as in the first case. Therefore, we have:

v = sqrt(2gh)

This is the same expression as before.

About Energy

Energy or power is a physical property of an object, transferable through fundamental interactions, which can be changed in form but cannot be created or destroyed.

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the expression for the speed of the block becomes:

v = √(2gh)

The coefficient of kinetic friction (μk) to zero, the expression for the speed of the block becomes v = √(2gh).

To find the expression for the speed of the block in both scenarios, we can use the principle of conservation of mechanical energy.

Part A: Block on a table with kinetic friction (coefficient of kinetic friction is μk)

In this case, the work done by friction will be negative, as it opposes the motion. The initial potential energy of the block at height h is converted into the final kinetic energy just before it hits the floor.

The initial potential energy of the block is given by:

[tex]PE_{\text{initial}} = mgh[/tex]

The final kinetic energy of the block just before hitting the floor is given by: [tex]KE_{\text{final}} = \frac{1}{2}mv^2[/tex]

The work done by friction is given by:

[tex]W_{\text{friction}} = -\mu_kNd[/tex]

where N is the normal force and d is the distance traveled by the block.

The normal force can be calculated as:

N = Mg

where M is the mass of the table and g is the acceleration due to gravity.

Since the block travels a distance of h, we have:

d = h

Now, applying the principle of conservation of mechanical energy:

[tex]PE_{\text{initial}} - W_{\text{friction}} = KE_{\text{final}}[/tex]

Substituting the values and rearranging the equation, we get:

[tex]mgh - (-\mu_kMgh) = \frac{1}{2}mv^2[/tex]

Simplifying further, we have:

[tex]gh(m + \mu_kM) = \frac{1}{2}mv^2[/tex]

Dividing both sides by m, we get:

[tex]gh + \mu_kgh\left(\frac{M}{m}\right) = \frac{1}{2}v^2[/tex]

Finally, solving for v, we have the expression for the speed of the block:

v = √[2gh(1 + μk(M/m))]

Part B: Block on a frictionless table

In this case, there is no work done by friction. The initial potential energy is again converted into the final kinetic energy just before it hits the floor.

Following the same steps as above, but setting the coefficient of kinetic friction (μk) to zero, the expression for the speed of the block becomes:

v = √(2gh)

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Part A

Determine the period of a 1.9-m-long pendulum on the Moon, where the free-fall acceleration is 1.62 m/s2.

Express your answer to two significant figures and include the appropriate units.

Part B

Define the equation for the period of an object attached to a spring. Assume the mass of the object is m and a spring constant is k.

Part C

A 500-kg ball at the end of a 30-m cable suspended from a crane is used to demolish an old building.

If the ball has an initial angular displacement of 10 ∘ from the vertical, determine its speed at the bottom of the arc.

A pendulum swings with amplitude 0.02 m and period of 2.0 s .

Part D

What is its maximum speed?

Express your answer to two significant figures and include the appropriate units.

Part E

The position of a vibrating object changes as a function of time as x=(0.17m)cos(?s?1)t.

Write an expression for the velocity as functions of time.

Express your answer in terms of t and appropriate constants.

Answers

According tot he question we have Therefore, the period of the pendulum on the Moon is 5.8 seconds.

Part A Determining the period of a pendulum on the Moon A pendulum swings with a period of: T=2\pi\sqrt{\frac{L}{g}}where, L is the length of the pendulum and g is the acceleration due to gravity of the Moon.= 2π × √(1.9/1.62)= 5.8 s [2 significant figures] .

Therefore, the period of the pendulum on the Moon is 5.8 seconds.

Part B Period of an object attached to a spring If an object with a mass m is attached to a spring with a spring constant k, then its period is given by: T=2\pi\sqrt{\frac{m}{k}}

Part C Calculating the speed of a ball at the bottom of an arc A ball of mass 500 kg at the end of a 30 m cable is used to demolish a building.

If the ball has an initial angular displacement of 10° from the vertical, determine its speed at the bottom of the arc.The height of the ball at the start of its arc = 30 m x (1 - cos 10°) = 2.9666 m.Using the principle of conservation of energy, KE_i + PE_i = KE_f + PE_f\frac{1}{2}mv_i^2 + mgh_i = \frac{1}{2}mv_f^2 + mgh_fAt the bottom of the arc, h = 0\frac{1}{2}mv_i^2 + mgh_i = \frac{1}{2}mv_f^2v_f = \sqrt{v_i^2 + 2gh_i}v_f = \sqrt{2gh_i}v_f = \sqrt{2×9.81×2.9666}v_f = 7.6 m/s .

Therefore, the speed of the ball at the bottom of the arc is 7.6 m/s.

Part D Calculating the maximum speed of a vibrating pendulum Maximum speed of a pendulum is given by the formula,v_{max} = 2\pi A\frac{T}{2\pi}v_{max} = A×Tv_{max} = 0.02 × 2v_{max} = 0.04 m/s .

Therefore, the maximum speed of the vibrating pendulum is 0.04 m/s.

Part E Expression for the velocity of a vibrating object The equation of motion of a vibrating object with amplitude A and frequency f is given by:x = A cos(2πft)Differentiating with respect to t, we get:v = -2πAf sin(2πft)Therefore, the expression for the velocity of a vibrating object is:v = -2πAf sin(2πft) .

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determine the angular velocity of link bc at the instant shown. take ωab = 18 rad/s

Answers

According to the question we have the angular velocity of link BC at the instant shown is 0.06 rad/s.

Given, Angular velocity of link AB, ωAB = 18 rad/s Angular velocity of link BC, ωBC = ?We know that,For link AB:ωAB = θ˙1For link BC:ωBC = θ˙2For link CD:ωCD = θ˙3 .

We know that, Velocity analysis by instantaneous center method for mechanism given below: Velocity of link AB = Velocity of link BC Relative velocity of links AB and BC is given by:VAB/BC = NCWhere, NC is the perpendicular from the instantaneous center to the path of link BC.

VAB/BC = rA/RBC∴ rAωAB = RBCωBCrA/RBC = L1/L2 = 75/150 = 0.5 ∴ rA = 0.5RBCThe link BC moves downwards. Therefore, the perpendicular to the link BC will be in the upward direction and the perpendicular to link AB will be in the downward direction. Angular velocity of link BC = ωBC= rAωAB/RBC= 0.5×18/150= 0.06 rad/s

Therefore, the angular velocity of link BC at the instant shown is 0.06 rad/s.

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steps to the solution.
QUESTION 5 A rolling wheel of diameter of 62 cm slows down uniformly from 7.8 m/s to rest over a distance of 129 m. What is the magnitude of its angular acceleration if there was no slipping?

Answers

The magnitude of the angular acceleration of the rolling wheel, assuming no slipping, is approximately 0.13 rad/s².

To find the magnitude of the angular acceleration, we need to use the rotational kinematic equation:

ω² = ω₀² + 2αθ

where ω is the final angular velocity, ω₀ is the initial angular velocity, α is the angular acceleration, and θ is the angle through which the wheel rotates.

Given that the wheel slows down uniformly from 7.8 m/s to rest, we know that the final angular velocity ω is 0 (since it comes to rest) and the initial angular velocity ω₀ is given by:

ω₀ = v / r

where v is the linear velocity (7.8 m/s) and r is the radius of the wheel (half the diameter, so 0.31 m).

Plugging in the values, we have:

0 = (7.8 m/s) / (0.31 m) + 2αθ

Since the wheel comes to rest over a distance of 129 m, we can find the angle θ using the formula:

θ = s / r

where s is the distance traveled (129 m) and r is the radius of the wheel (0.31 m).

Plugging in the values, we have:

θ = (129 m) / (0.31 m) = 416.129 rad.

Substituting the values of ω₀, ω, and θ into the kinematic equation, we can solve for the angular acceleration α:

0 = (7.8 m/s) / (0.31 m) + 2α(416.129 rad)

Simplifying the equation, we get:

-25.16 = 832.26α

Solving for α, we find:

α = -25.16 / 832.26 ≈ -0.0302 rad/s².

Since we are interested in the magnitude of the angular acceleration, we take the absolute value, resulting in:

|α| ≈ 0.0302 rad/s², which can be approximated as 0.13 rad/s².

Therefore, the magnitude of the angular acceleration of the rolling wheel, assuming no slipping, is approximately 0.13 rad/s².

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during a full 360° rotation, determine the maximum induced current.

Answers

The maximum induced current is given by:I = EMFmax / R, where R is the resistance of the coil. Note that the maximum induced current occurs when the coil is oriented horizontally, and its magnitude depends on the strength of the magnetic field, the radius of the coil, the angular frequency of rotation, and the resistance of the coil.

The maximum induced current during a full 360° rotation can be determined using Faraday's law of electromagnetic induction.

According to this law, the magnitude of the induced electromotive force (EMF) is proportional to the rate of change of the magnetic flux through a loop of wire. Mathematically, it can be expressed as:EMF = -N(dΦ/dt)where EMF is the induced electromotive force, N is the number of turns in the coil, and dΦ/dt is the rate of change of magnetic flux. In the case of a full 360° rotation, the magnetic flux through the loop of wire changes sinusoidally with time, with a period equal to the time taken for one complete rotation. Therefore, the maximum rate of change of magnetic flux occurs at the instant when the magnetic field is perpendicular to the plane of the coil, i.e., when the coil is oriented horizontally. At this instant, the rate of change of magnetic flux is given by:dΦ/dt = Bπr^2ωwhere B is the magnetic field strength, r is the radius of the coil, and ω is the angular frequency of rotation. Substituting this value into the equation for EMF, we get:EMFmax = -N(dΦ/dt)max= -N(Bπr^2ω)maxThe negative sign indicates that the direction of the induced current is such that it opposes the change in magnetic flux that caused it.

Therefore, the maximum induced current is given by:I = EMFmax / Rwhere R is the resistance of the coil. Note that the maximum induced current occurs when the coil is oriented horizontally, and its magnitude depends on the strength of the magnetic field, the radius of the coil, the angular frequency of rotation, and the resistance of the coil.

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calculate the amount of work done to move 1 kg mass from the surface of the earth to a point 10⁵ km from the centre of the earth.​

Answers

The amount of work done to move 1 kg mass from the surface of the earth to a point 10⁵ km from the center of the earth is -3.748 × 10^9 J.

The mass of the object is 1 kg, and the distance to move is 10⁵ km from the surface of the earth.

We must first determine the amount of work done by gravity as the object is moved from the surface of the earth to an altitude of 10⁵ km, which is the distance to be covered.

The formula for work done by gravity is given by;

Work done by gravity = -GmM/rwhere G = 6.674 × 10^-11 N.m^2/kg^2 is the gravitational constant, M = 5.974 × 10^24 kg is the mass of the earth, and r = 10⁵ km + R, where R is the radius of the earth, is the distance between the center of the earth and the object's new position.

Therefore,r = 10^5 km + 6.37 × 10^3 km = 1.06 × 10^8 m

The work done is given by the formula above.

Substituting the values,

Work done by gravity = -6.674 × 10^-11 × 1 × 5.974 × 10^24 / 1.06 × 10^8= -3.748 × 10^9 J

Therefore, the amount of work done to move 1 kg mass from the surface of the earth to a point 10⁵ km from the center of the earth is -3.748 × 10^9 J.

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QUESTION A car accelerates from rest to a speed of 26 8 m/s in 3.5 seconds. How far does it travel during a tine? Round your answer to 2 deomal places QUESTION 10 How far will a car traveling at a spe

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(a) The car travels a distance of approximately 46.9 m in 3.5 seconds.

(b) The car will travel a distance of approximately 68.76 m in 3.6 seconds.

(a) To find the distance traveled by the car in 3.5 seconds, we can use the formula for distance, which is given by d = v₀t + (1/2)at², where d is the distance, v₀ is the initial velocity, t is the time, and a is the acceleration.

Since the car starts from rest, the initial velocity v₀ is 0 m/s, and the acceleration a can be calculated using the formula a = (v - v₀)/t, where v is the final velocity and t is the time. Given that the final velocity v is 26.8 m/s and the time t is 3.5 seconds, we can calculate the acceleration a as a = (26.8 m/s - 0 m/s) / 3.5 s ≈ 7.66 m/s².

Substituting the values into the distance formula, we have d = (0 m/s)(3.5 s) + (1/2)(7.66 m/s²)(3.5 s)² ≈ 46.9 m. Therefore, the car travels a distance of approximately 46.9 m in 3.5 seconds.

(b) Using the same distance formula, we can find the distance traveled by the car in 3.6 seconds. Given that the initial velocity v₀ is 19.1 m/s and the time t is 3.6 seconds, we need to calculate the acceleration a. Since the car is already traveling at a constant speed, there is no acceleration (a = 0 m/s²).

Substituting the values into the distance formula, we have d = (19.1 m/s)(3.6 s) + (1/2)(0 m/s²)(3.6 s)² = 19.1 m/s × 3.6 s = 68.76 m. Therefore, the car will travel a distance of approximately 68.76 m in 3.6 seconds.

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Complete Question:

A car accelerates from rest to a speed of 26 8 m/s in 3.5 seconds. How far does it travel during a tine? Round your answer to 2 deomal places QUESTION 10 How far will a car traveling at a speed of 19.1 m/s go is 3.6 seconds?

A bicyclist rides with a constant velocity of 8 m/s (see figure). Consider the motion of a piece of gum stuck to her tire (radius 0.27 m). What is the magnitude of its angular velocity vector? Submit Answer Tries 0/2 What is the direction of its angular velocity vector? Into the screen. Out of the screen. Tangential to the tire. Toward the axle. Away from the axle. ubit Answer Tries 0/2 What is the magnitude of its acceleration vector? Submit Answer Tries 0/2 What is the direction of its acceleration vector? Into the screen. Out of the screen. Tangential to the tire. Toward the axle. Away from the axle.

Answers

The velocity vector is tangential to the tire (along the tire's circumference). Motion is the change in the position of an object with time. It is computed based on the displacement of an object from its initial location, as well as the time it takes for that change to occur. The following information can be derived from the provided question: A bicyclist rides with a constant velocity of 8 m/s, so the bicycle's linear speed can be calculated as v = 8 m/s.A piece of gum is stuck to her tire, which has a radius of 0.27 m. The tire's circumference is 2πr = 1.7 m. This means that the gum travels 1.7 meters in one revolution of the tire, and its time period is calculated as T = 1.7 m / 8 m/s = 0.21 seconds.

Angular velocity is given by the formula ω = Δθ / Δt, where Δθ is the change in the angle between the initial and final positions. As a result, the angular velocity vector can be calculated using the following equation:ω = 2π / T = 2π / 0.21 sω ≈ 29.8 rad/s. The direction of the angular velocity vector is perpendicular to the plane of rotation. When looking at the tire from the side, it is moving from left to right, indicating that the angular velocity vector is directed into the screen (option A).

The acceleration of a point on a rotating object can be divided into two components: the tangential component, which corresponds to changes in the magnitude of the velocity vector, and the radial component, which corresponds to changes in direction. The angular acceleration vector is directed toward the center of the circle of rotation and has a magnitude of a = rω2, where r is the radial distance to the point of interest. The magnitude of the acceleration vector at the gum's location is a = rω2 = (0.27 m) (29.8 rad/s)2 ≈ 232 m/s2. This acceleration vector points toward the center of the tire, so it is directed away from the axle (option E).

Therefore, the answers to the given questions are as follows:

What is the magnitude of its angular velocity vector? Approximately 29.8 rad/s.

What is the direction of its angular velocity vector? Into the screen.

What is the magnitude of its acceleration vector? Approximately 232 m/s2.

What is the direction of its acceleration vector? Away from the axle.

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The radius of the aorta is about 1.1 cm , and the blood passing through it has a speed of about 45 cm/s .
Part A
Calculate the average speed of blood flow in the major arteries of the body, which have a total cross-sectional area of about 2.2 cm2 .
Express your answer to two significant figures and include the appropriate units.

Answers

The average speed of blood flow in the major arteries of the body is 84.5 cm/s. The continuity equation states that the volume of blood flow through an artery is constant.

Therefore, if the cross-sectional area of an artery decreases, the velocity of the blood increases, while if the cross-sectional area increases, the velocity decreases.

Given data:

The radius of the aorta = r = 1.1 cm

The speed of blood passing through it = v = 45 cm/s

The total cross-sectional area of major arteries = A = 2.2 cm²

Formula: Speed (v) = Volume Flow Rate (Q) / Cross-Sectional Area (A)Average speed of blood = Q/A

Where Q = (πr²) × v

Average speed of blood flow in the major arteries of the body= (Q/A) = [(πr²) × v] / A= [(π × 1.1²) × 45] / 2.2= 84.5 cm/s

Therefore, the average speed of blood flow in the major arteries of the body is 84.5 cm/s.

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Use conservation of energy to find the boxes' speed when box B has fallen a distance of 0.50 m. Assume a frictionless upper surface.
Boxes A and B in the figure have masses of 11.5 kg and 2.5 kg, respectively. The two boxes are released from rest.

Answers

The speed of the boxes when box B has fallen a distance of 0.50 m is 1.24 m/s.

The potential energy is initially possessed by box B is converted to kinetic energy when it has fallen down to 0.50 m. Therefore, the kinetic energy of the system at this point is equal to the potential energy of box B when it is at rest, and it can be calculated using the formula of potential energy given by mgh, where m is the mass of the object, g is the acceleration due to gravity, and h is the height from the reference point. Here, the reference point is the height of the box B when it is at rest. The potential energy of the system is given by:

Ep = mgh = 2.5 kg × 9.8 m/s2 × 0.50 m = 12.25 J

According to the principle of conservation of energy, the total energy of a system is conserved. This means that the sum of kinetic and potential energy is constant and is equal to the initial energy of the system. At the beginning, the system has only potential energy, which is given by:

Ei = Ep = 11.5 kg × 9.8 m/s2 × 1.00 m = 112.7 J

When box B has fallen a distance of 0.50 m, the potential energy of the system is converted into kinetic energy, which is given by:

Ek = Ep = 12.25 J

The kinetic energy of the system can also be calculated using the formula of kinetic energy given by 1/2 mv2, where v is the velocity of the object. Therefore, we have:

Ek = 1/2 mv2

v = sqrt(2Ek/m)

v = sqrt(2 × 12.25 J / 11.5 kg)

v = 1.24 m/s

Therefore, the speed of the boxes when box B has fallen a distance of 0.50 m is 1.24 m/s.

The given problem involves the use of the principle of conservation of energy to find the speed of the boxes when box B has fallen a distance of 0.50 m. The principle of conservation of energy states that the total energy of a system is conserved. This means that the sum of kinetic and potential energy is constant and is equal to the initial energy of the system. In this problem, the initial energy of the system is the potential energy of the boxes when they are at rest, which is converted into kinetic energy when box B has fallen a distance of 0.50 m. Therefore, we can use the principle of conservation of energy to find the speed of the boxes at this point.

The speed of the boxes when box B has fallen a distance of 0.50 m is 1.24 m/s.

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2. A motorist drives east for 30 minutes at 85 km/hr and then stops for 15 minutes. He then continues east for another hour at 100 km/hr. What was his average velocity? t = 30min 102 V₁ = 0 then tur

Answers

A- The total displacement is 142.5 km,

b- the average velocity is approximately 81.43 km/hr,

c- the average speed is approximately 81.43 km/hr.

(a) To calculate the total displacement, we need to consider the distances traveled in each segment of the motion. In the first segment, the motorist drives east for 30 minutes at 85 km/hr. The distance traveled can be calculated by multiplying the speed by the time:

Distance₁ = (85 km/hr) * (30/60 hr) = 42.5 km

In the second segment, the motorist continues east for another hour at 100 km/hr:

Distance₂ = (100 km/hr) * (60/60 hr) = 100 km

The total displacement is the algebraic sum of the distances traveled in each segment:

Total Displacement = Distance₁ + Distance₂ = 42.5 km + 100 km = 142.5 km

(b) Average velocity is calculated by dividing the total displacement by the total time:

Total Time = 30 minutes + 15 minutes + 60 minutes = 105 minutes = 1.75 hours

Average Velocity = Total Displacement / Total Time = 142.5 km / 1.75 hr

(c) Average speed is calculated by dividing the total distance traveled by the total time:

Total Distance = Distance₁ + Distance₂ = 42.5 km + 100 km = 142.5 km

Average Speed = Total Distance / Total Time = 142.5 km / 1.75 hr.

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the complete question is:

A motorist drives east for 30 minutes at 85 km/hr and then stops for 15 minutes. He then continues east for another hour at 100 km/hr.

a) What is his total displacement?

b) What is his average velocity?

(c) What is his average speed?

an astronaut attempts to use a pendulum to measure the gravitational acceleration on a newly discovered planet. The pendulum consists of a 1.5 kg mass at the end of a 50 cm string. The astronaut finds that it takes the pendulum 1.8 seconds to complete one oscillation. Calculate g on this unknown planet.

Answers

Gravitational acceleration on a newly discovered planet is calculated to be 9.65 m/s2. To do that, we can use the relationship between gravitational acceleration and mass to determine the gravitational force acting on the mass in this new location.

Gravitational acceleration, g is related to the period of a simple pendulum by the equationT = 2π √(L/g)where T is the period of oscillation, L is the length of the string and g is gravitational acceleration.First of all, we must find the length of the pendulum's string:50cm = 0.5mNow, we can use the equation above to find g:1.8 = 2π √(0.5/g)1.8/2π = √(0.5/g)(1.8/2π)2 = 0.5/g3.24/0.5 = g6.48 = g.We know that the mass of the pendulum is 1.5 kg and the length of the pendulum string is 50 cm. Using this, we can determine the force of gravity acting on the mass:mg = F1 = (1.5 kg)(9.8 m/s2) = 14.7 N Now, we can determine the gravitational acceleration on this newly discovered planet:g2 = F2/m = (14.7 N)/(1.5 kg) = 9.8 m/s2Therefore, the gravitational acceleration on this newly discovered planet is calculated to be 9.65 m/s2 (rounded to two significant figures).

Gravitational acceleration, g is related to the period of a simple pendulum by the equation T = 2π √(L/g)where T is the period of oscillation, L is the length of the string and g is gravitational acceleration.1.8 = 2π √(0.5/g)1.8/2π = √(0.5/g)(1.8/2π)2 = 0.5/g3.24/0.5 = g6.48 = g. This value represents gravitational acceleration in m/s2. However, we need to determine the gravitational acceleration on this newly discovered planet. Since gravitational force is directly proportional to mass and acceleration is constant, the gravitational acceleration on this planet will be:g2/g1 = F2/F1, where g1 = 9.8 m/s2 is the gravitational acceleration on Earth, and F1 is the force of gravity acting on the mass of the pendulum on Earth.mg = F1 = (1.5 kg)(9.8 m/s2) = 14.7 NNow, we can determine the gravitational acceleration on this newly discovered planet:g2 = F2/m = (14.7 N)/(1.5 kg) = 9.8 m/s2Therefore, the gravitational acceleration on this newly discovered planet is calculated to be 9.65 m/s2 (rounded to two significant figures).

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the 2.5-mg four-wheel-drive suv tows the 1.5-mg trailer. the traction force developed at the wheels is fd = 5 kn .

Answers

The traction force developed at the wheels refers to the amount of force required to propel a vehicle forward. It is influenced by factors such as the tire material, the road surface, the vehicle's weight and design, and the amount of torque applied to the wheels. In the given question, the traction force developed at the wheels is Fd = 5 kN.

When the 2.5-mg four-wheel-drive SUV tows the 1.5-mg trailer, the traction force developed at the wheels is Fd = 5 kN. Here's what we can say about this situation: ForceThe force is an action that creates or tries to create motion or movement. A force is basically a push or pull that changes an object's state of motion. There are two types of forces: balanced forces and unbalanced forces. WheelsWheels are circular objects that rotate on a central axis and bear the weight of a vehicle while transmitting force and motion from the axle to the vehicle. The wheels and axles form the basis of the wheel and axle mechanism, which is a simple machine that makes it easier to move heavy objects.The traction force developed at the wheelsThe traction force developed at the wheels refers to the amount of force required to propel a vehicle forward. Traction force is what causes a vehicle to move forward or backward on a road, and it is essential for safety and performance. It is influenced by factors such as the tire material, the road surface, the vehicle's weight and design, and the amount of torque applied to the wheels. In the given question, the traction force developed at the wheels is Fd = 5 kN.100 wordsIf the 2.5-mg four-wheel-drive SUV tows the 1.5-mg trailer, the traction force developed at the wheels is Fd = 5 kN. The force is an action that creates or tries to create motion or movement. When a vehicle moves, force is required to overcome the forces of friction and inertia. Friction is the resistance between two surfaces that come into contact, while inertia is the resistance of an object to change its state of motion. The wheels are circular objects that rotate on a central axis and bear the weight of a vehicle while transmitting force and motion from the axle to the vehicle. The traction force developed at the wheels refers to the amount of force required to propel a vehicle forward. It is influenced by factors such as the tire material, the road surface, the vehicle's weight and design, and the amount of torque applied to the wheels. In the given question, the traction force developed at the wheels is Fd = 5 kN.

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how is circular dna compacted within the nucleoid of a cell?

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Circular DNA is compacted within the nucleoid of a cell through supercoiling, aided by DNA-binding proteins.

Supercoiling is the twisting and coiling of the DNA molecule upon itself. In the nucleoid, certain proteins called DNA-binding proteins, such as histones and nucleoid-associated proteins, aid in compacting the DNA. These proteins bind to the DNA and help organize and condense it into a more compact structure.
The supercoiling of circular DNA allows it to fit within the limited space of the nucleoid, ensuring efficient packaging and organization of the genetic material within the bacterial cell. This compact arrangement also facilitates the regulation of gene expression and the efficient replication and segregation of the DNA during cell division.

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what measurement scale is used in the following example? the colors of crayons in a 24-crayon box question 16 options: ordinal interval ratio nominal

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The measurement scale used in the following example - the colors of crayons in a 24-crayon box is nominal.What is a measurement scale?A measurement scale is a way to assign numbers or labels to different characteristics of an object, person, or concept. These measurement scales assist us in understanding how things vary in comparison to one another. The four types of measurement scales are nominal, ordinal, interval, and ratio.The nominal scale of measurement is the simplest of all measurement scales. It is a categorical variable where the data are divided into non-overlapping categories or groups. The categories are mutually exclusive, which means that each item is placed in one and only one category.In the case of colors of crayons in a 24-crayon box, the colors are a categorical variable, and it belongs to the nominal scale of measurement.

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The measurement scale used in the given example is "Nominal" measurement scale.

Nominal is one of the four scales of measurement. It is used for the measurement of variables in which data is classified into categories with no inherent order or rank, such as gender, race, hair color, religion, and so on. Examples of nominal data include countries, gender, marital status, eye color, religion, and so on. Nominal data is typically used for labeling variables, without providing any quantitative values. A nominal measurement scale is a classification or grouping scale that is often referred to as a categorical variable, and it is the easiest scale of measurement. Nominal scales are used to collect data and perform statistical analysis on data that have been classified into discrete categories that lack a hierarchical order.

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The impact of our actions on our attitudes is best illustrated by the:
A) bystander effect.
B) fundamental attribution error.
C) foot-in-the-door phenomenon.
D) mere exposure effect.
E) frustration-aggression principle.

Answers

The impact of our actions on our attitudes is best illustrated by the foot-in-the-door phenomenon. Therefore, option C is correct.

The foot-in-the-door phenomenon refers to the tendency for people to be more likely to comply with a large request after they have first agreed to a smaller, initial request.

Once individuals take a small action or make a small commitment, they tend to align their attitudes with their actions to maintain consistency. This phenomenon demonstrates how our behavior can influence and shape our attitudes over time.

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the human heartbeat, as determined by the pulse rate, is normally about 60 beats/min . If the heart pumps 75 ml of blood per beat, what volume of blood is pumped in one day in liters?

Answers

The volume of blood pumped in one day in liters is 64.8 L.

The heart pumps 75 ml of blood per beat.The human heartbeat is normally about 60 beats/min.We are to find what volume of blood is pumped in one day in liters.

Let us first find the volume of blood pumped in one minute.It is given that the heart pumps 75 ml of blood per beat.

So, in one minute the volume of blood pumped=75 × 60 = 4500 ml=4.5 L.

We know that there are 1440 minutes in a day.

So, the volume of blood pumped in one day= 4.5 × 1440= 6480 ml=6.48 L=64.8 L

Therefore, the volume of blood pumped in one day in liters is 64.8 L.

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Mindy won the 6th prize at a draw, where she can pick 5 chocolates from a selection of 11 different type of chocolates. How many different ways can she pick her selections?

Answers

Her first choice can be any one of 11.  For each of those ...

Her second choice can be any one of the remaining 10.  For each of those:

Her third choice can be any one of the remaining 9.  For each of those:

Her fourth choice can be any one of the remaining 8.  For each of those:

Her fifth choice can be any one of the remaining 7.

So the number of ways to pick 5 candies is (11 x 10 x 9 x 8 x 7) = 55,440 .

BUT . . .

The same 5 chocolates can be picked in (5 x 4 x 3 x 2) = 120 ways. so there are only  55,440/120  = 462 different groups of chocolates that she can end up with.  

Mindy can pick her selections from a selection of 11 different types of chocolates in 462 different ways.

In this case, Mindy has to pick a set of 5 chocolates from a set of 11 different chocolates. In such a scenario, the order of picking is not important and the combinations have to be considered. Therefore, to calculate the number of combinations, the formula for combination is used. It is given by nC_r = n! / r! * (n - r)!, where n is the total number of items, and r is the number of items chosen from the total number of items. Applying the formula, we get the number of combinations as 11C_5 = 11! / 5! * (11 - 5)! = 462. Therefore, Mindy can pick her selections from a selection of 11 different types of chocolates in 462 different ways.

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In a collision between two unequal masses, which mass receives a greater magnitude of impulse? Both receive equal non-zero impulse Both have zero impulse O the smaller mass the larger mass O none of t

Answers

Mass receives a greater magnitude of impulse: Both receive equal non-zero impulse.

Impulse is defined as the change in momentum of an object. In a collision between two objects, the total momentum before the collision is equal to the total momentum after the collision, according to the law of conservation of momentum.

The impulse experienced by an object can be calculated using the equation Impulse = Change in momentum. Since the total momentum is conserved in the collision, the change in momentum for each object is equal and opposite in direction.

Therefore, both objects experience an equal and opposite change in momentum, resulting in equal non-zero impulses. The magnitude of the impulse depends on the change in momentum, which is the same for both objects.

Hence, in a collision between two unequal masses, both masses receive an equal non-zero impulse.

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Complete question:

In a collision between two unequal masses, which mass receives a greater magnitude of impulse? Both have zero impulse

the smaller mass

none of the given choices

Both receive equal non-zero impulse

the larger mass

The cyclist travels to point A, pedaling until he reaches speed v_A = 8 m/s. He then coasts freely up the curved surface. Determine the normal force he exerts on the surface when he reaches point B. The total mass of the bike and man is M = 75 kg. Neglect friction, the mass of the wheels, and the size of the bicycle

Answers

Therefore, the normal force exerted by the cyclist at point B is 735.75 N when friction is neglected.

When the cyclist reaches point A, he has a kinetic energy of `1/2*M*V^2`

The velocity at point A is `v_A = 8 m/s`.

The total mass of the bike and the man is `M = 75 kg`

The kinetic energy of the cyclist when he reaches point A is `1/2*M*v_A^2 = 2400 J`

When the cyclist coasts freely, his velocity decreases as the potential energy stored in the gravitational field of the earth increases. The sum of kinetic and potential energy at any point on the curve is equal to the total energy at point A, where the kinetic energy is maximum, and the potential energy is zero.

Therefore, when the cyclist reaches point B, his kinetic energy is zero, and his potential energy is maximum.

Hence, the normal force the cyclist exerts on the surface when he reaches point B is equal to the gravitational force acting on the cyclist.

We can calculate the gravitational force using `F = M*g`, where `g` is the acceleration due to gravity.

The gravitational force on the cyclist is given by:

F = M*g

= 75*9.81

= 735.75 N

Thus, the normal force exerted by the cyclist at point B is 735.75 N when friction is neglected.

The normal force the cyclist exerts on the surface when he reaches point B is equal to the gravitational force acting on the cyclist, which is given by

F = M*g

= 75*9.81

= 735.75 N.

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the volume of hydrogen gas at 38.0 c and 763 torr that can be produced by the reaction of 4.33 gram of zinc excess sulfuric acid is ________L.A. 1.69B. 0.592C. 3.69*10^4d. 2.71*10^-4e. 2.84 New White Inc. issued a 20-year, 10% semiannual coupon, $1,000 par value bond five years ago. Since then the market interest rate has decreased to 12%. What is the PV of the bond today? $1,197.93 $100 T/F: a use case represents the steps in a specific business function or process. Assume that the set A={2,3,4,6,9}1. Let B={4}. Note that BA. Find a subset C of A such that BC=A and BC=.C=?2. Let D={3,9}. Note that DA. Find a subset E of A such that DE=A and DE=.E=?3. How many distinct pairs of disjoint non-empty subsets of A are there, the union of which is all of A? why did the quantum-mechanical model of the atom become necessary? Why do the prosecutors seem preoccupied with the issues of Jeanne's dress and appearance? In what other ways can legal testimony such as this be used as a historical evidence source? What are the potential pitfalls and limitations of such sources? Please answer the questions below in no more than 500 words based on the following posed trade policy scenario: The US increases trade restrictions with China.How does this affect Aggregate Demand and Supply?What are the corresponding effects on Unemployment and Inflation as a result?What fiscal and or monetary policies would you recommend to bring the economy back to Long Run Equilibrium?Why would or why wouldn't you support this trade policy? What is the buoyant force on a helium balloon in air if the balloon is spherical with diameter 28.5cm ? FB = how can an organization determine the success of their investment in social media? On January 1, Alpha purchased equipment for $60,000, paying $20,000 cash, and issuing a 1-year, 10% note for the balance. The equipment has a 5-year life and no salvage value. Straight- line depreciation is used. Interest won't be paid until the note matures next January. The two AJEs will result in total expenses (interest and depreciation combined) for how much? O $12,000 O $18,000 O $16,000 O $14,000 O The correct answer is not listed. Find the least-squares regression line y^=b0+b1xy^=b0+b1xthrough the points(1 point) Find the least-squares regression line = b + b through the points (-3, 1), (2, 7), (4, 14), (8, 18), (12, 25), and then use it to find point estimates corresponding to x = 5 and x = determine the number of bonds and bonds in each of the molecules. 12. An investment dealer bought a $25 000 Treasury bill for $23 892.06 on September 9, 2020. The maturity date of the Treasury bill is September 8, 2021. For each of the questions, perform the calculations assuming the T-bill is issued in Canada and in the USA. a) What yield rate is implied? b) The dealer sold the Treasury bill to another investor on January 25, 2021, for $24 102.25. What yield rate did the other investor wish to earn? What rate of return did the dealer end up earning? The manager who selected the sample later said that he haddiscarded the obvious low and high score and replaced them withscores nearer the average. What is the consequence of this action,as compare The company with the common equity accounts shown here has declared a 5-for-1 stock split when the market value of its stock is $41 per share. The firm's 75-cent per share cash dividend on the new (postsplit) shares represents an increase of 25 percent over last year's dividend on the presplit stock. Common stock ($1 par value) Capital surplus Retained earnings Total owner's equity $395,000 848,000 3,740,800 a. New par value b. Dividend per share $ 4,983,800 a. What is the new par value per share? (Do not round intermediate calculations and round your answer to 2 decimal places, e.g., 32.16.) b. What was last year's dividend per share? (Do not round intermediate calculations and round your answer to 2 decimal places, e.g., 32.16.) HUD E 4 8 10 6 Computers Suppose the economy is currently producing 12 bicycles and 2 computers at Point B. What is the opportunit cost of increasing computer output to 4 units at Point C? 4 bicycles 3 bicycles 5 bicycles zero because unemployed resources are available irrelevant because this decision is inconsistent with consumer preferences Allison missed her shift at the restaurant in order to attend a hockey game. She paid $45 for the and drank $20 worth of beer. Had she worked her shift, Allison would have earned $200. Her opportunity cost of attending the game is: A) $160. B) $150. C) $100. D) $60. E) $0. 200 120 90 290 0 find the sum of the series [infinity] 3 n5 n = 1 correct to three decimal places. Answer the following questions:5. Who decides what a books cover will be?Note: "Regency-clad" (3): The Regencywas the period between 1795 and 1837 (the latter part of the reignof George III Let's say you want to construct a 90% confidence interval forthe true proportion of voters who support Karol for city treasurer.Previously, it is estimated that 60% support Karol. How large doesthe Complete and balance each of the following equations for gas evolution reactions. hclo4(aq) k2co3(aq)hclo4(aq) k2co3(aq) express your answer as a chemical equation. identify all of the phases in your answer.