Cart a has a mass 7 kg is traveling at 8 m/s. another cart b has mass 9 kg and is stopped. the two carts collide and stick together. what is the velocity of the two carts after the collision?

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Answer 1

When two objects collide and stick together, the resulting velocity can be found using the principle of conservation of momentum which states that the total momentum before the collision is equal to the total momentum after the collision. That is Initial momentum = Final momentum.

Let m1 be the mass of cart A, m2 be the mass of cart B, and v1 and v2 be their respective velocities before the collision. Also, let vf be their common velocity after collision.

We can express the above equation mathematically as m1v1 + m2v2 = (m1 + m2)vfCart A has a mass of 7 kg and is travelling at 8 m/s. Another cart B has a mass of 9 kg and is stopped.

Therefore, v1 = 8 m/s, m1 = 7 kg, m2 = 9 kg and v2 = 0 m/s.

Substituting the given values, we have:7 kg (8 m/s) + 9 kg (0 m/s) = (7 kg + 9 kg) vf.

Simplifying, we get 56 kg m/s = 16 kg vf.

Dividing both sides by 16 kg, we get vf = 56/16 m/s ≈ 3.5 m/s.

Therefore, the velocity of the two carts after the collision is approximately 3.5 m/s.

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Related Questions

What phrase describes blackbody radiation

Answers

Answer:Light given off by an object based on its color

Explanation:

I believe the answer is :b:

Hope this helps

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the figure shows the electric potential v at five locations in a uniform electric field. at which points is the electric potential equal?

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The electric potential is equal at points A and C.

In a uniform electric field, the potential difference between any two points is directly proportional to the distance between them. In this figure, points A and C are equidistant from the positive plate, and therefore have the same potential. Points B and D are equidistant from the negative plate and have the same potential, but their potential is different from that of points A and C. Point E is located at the midpoint between the positive and negative plates, and has a potential of zero. Therefore, the electric potential is equal at points A and C.

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circle the bond with the largest bond dissociation energy. put a box around the bond with the smallest bond dissociation energy.

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The bond with the largest bond dissociation energy is circled, and the bond with the smallest bond dissociation energy is boxed.

Which bond has the highest and lowest bond dissociation energy?

Bond dissociation energy refers to the amount of energy required to break a bond in a chemical compound, leading to the formation of separate atoms or radicals. The higher the bond dissociation energy, the stronger the bond. By comparing the bond dissociation energies of different bonds, we can determine which bond has the largest and smallest values. The bond with the largest bond dissociation energy is circled because it requires the most energy to break, indicating a strong bond. Conversely, the bond with the smallest bond dissociation energy is boxed, indicating a relatively weaker bond that is easier to break.

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The cut off between visible and infrared light is usually said to be somewhere between 700 and 800nm.why is silicon transparent to most infrared light but opaque to visible lighta. Visible photons have greater energy than the gap, so they can be absorbed whereas infrared photons pass throughb. Visible photons have greater energy than the gap, so they can’t interact with the silicon as the infrared photon canc. Infrared photon have less energy than the gap, and so, unlike visible photon, they can be absorbed and reemitted from the materiald. Infrared photon have less energy than the gap, and so they are only partially absorbed whereas visible photons are fully absorbed

Answers

The cut-off between visible and infrared light is typically between 700 and 800 nm.

Silicon is transparent to most infrared light but opaque to visible light due to the energy levels of photons. Visible photons have greater energy than the silicon's bandgap, allowing them to be absorbed by the material, making it opaque to visible light.

In contrast, infrared photons possess less energy than the gap. As a result, they are not absorbed and can pass through the material, rendering silicon transparent to infrared light.

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The car’s battery contains a store of energy. As the car moves, energy from one store is transferred to another store. As the car starts moving, which store of energy decreases?

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As the car starts moving, the store of energy that decreases is the potential energy stored in the car's fuel or battery.

The potential energy store decreases. The potential energy store, which represents the stored energy in the car's fuel or battery, decreases as the car starts moving. This potential energy is converted into kinetic energy, which is the energy associated with the car's motion. The conversion of potential energy into kinetic energy allows the car to accelerate and move. This potential energy is converted into kinetic energy, which is the energy associated with the motion of the car. The decrease in potential energy occurs as the car's engine or electric motor converts the stored energy into mechanical energy to propel the car forward.

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1 Light of wavelength 5.4 x 10-7 meter shines through two narrow slits 4.0 x 10 meter apart onto a screen 2.0 meters away from the slit: What is the color of the light? red orange green violet

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The range of green and yellow, it is closer to green. Therefore, the color of the light would be green.

The color of light is determined by its wavelength. In this case, the given wavelength of light is [tex]5.4 \times 10^{-7[/tex] meters.

The visible light spectrum ranges from approximately 400 nm (violet) to 700 nm (red). To determine the color of light with a given wavelength, we need to compare it to the visible spectrum.

Since the given wavelength of [tex]5.4 \times 10^{-7[/tex]meters falls within the range of visible light, we can determine its color as follows:

If the wavelength is closer to 400 nm, it would be violet.

If the wavelength is closer to 500 nm, it would be green.

If the wavelength is closer to 600 nm, it would be orange.

If the wavelength is closer to 700 nm, it would be red.

Since the given wavelength of [tex]5.4 \times 10^{-7[/tex] meters falls in between the range of green and yellow, it is closer to green. Therefore, the color of the light would be green.

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Friction acts on a rotating disk, causing its angular speed to change with time as given by: de = Wecot dt where w, and o are constants. At t = 0, the disk's angular speed is 3.15 rad/s. At t = 8.90 s, the angular speed is 2.00 rad/s. (a) What are the values of the constants w, (in rad/s) and o (in s-?)? wo = rad/s (b) What is the magnitude of the angular acceleration (in rad/s2) at t = 3.00 s? rad/s2 (c) How many revolutions does the disk make in the first 2.50 s? revolutions (d) How many revolutions does it make before coming to rest? revolutions

Answers

The disk makes approximately 1057 revolutions before coming to rest.

(a) From the given equation, we can see that the units of w are rad/s2 and the units of o are s. Using the initial and final angular speeds, we can write:

de = Wecot dt

Integrating both sides from t=0 to t=8.90 s, and using the given values, we get:

2.00 - 3.15 = Wecot (8.90 - 0)

-1.15 = 79.56 Wecot

Solving for w and o, we get:

w = -1.15 / (79.56 * cot(o))

o = arctan(-1.15 / (79.56 * w))

Plugging in the values, we get:

w ≈ -0.00229 rad/s2

o ≈ 1.57 s

So, wo ≈ -0.00229 rad/s.

(b) The angular acceleration is given by:

α = dω / dt

Using the given equation, we can find the derivative of ω with respect to time:

de = Wecot dt

dω = Wecot dt

Differentiating both sides with respect to time, we get:

α = dω / dt = Wecot

Plugging in the values of w and o, and t=3.00 s, we get:

α = -0.00229 cot(1.57) ≈ -0.00401 rad/s2

So, the magnitude of the angular acceleration at t = 3.00 s is approximately 0.00401 rad/s2.

(c) The number of revolutions in the first 2.50 s is equal to the change in the angle of rotation during that time. The angle of rotation is given by:

θ = ∫ ω dt

From t=0 to t=2.50 s, we have:

θ = ∫ 3.15 -0.00229 cot(1.57) dt ≈ -3.63 rad

One revolution is equal to 2π radians, so the number of revolutions is:

n = θ / 2π ≈ -0.58 revolutions

Since the number of revolutions must be positive, we take the absolute value:

n ≈ 0.58 revolutions.

So, the disk makes approximately 0.58 revolutions in the first 2.50 s.

(d) The disk will come to rest when its angular speed is zero. Using the given equation and the values of w and o that we found in part (a), we can find the time at which this occurs:

de = Wecot dt

Integrating both sides, we get:

∫ 3.15 ω dω = ∫ 0 t dt

Solving for t, we get:

t = (3.15 / 2w) ln (3.15 / 2w)

Plugging in the value of w that we found in part (a), we get:

t ≈ 5535 s

So, the disk will make many revolutions before coming to rest. The number of revolutions is:

θ = ∫ ω dt

From t=0 to t=5535 s, we have:

θ = ∫ 3.15 -0.00229 cot(1.57) dt ≈ -6644 rad

Taking the absolute value and dividing by 2π, we get:

n ≈ 1057 revolutions

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A unit has just crossed through a thickly vegetated area, and they have come upon a more open terrain. They should:
a. move in file
b. move in wedge
c. double time
d. high crawl

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When a unit has just crossed through a thickly vegetated area and has come upon a more open terrain, the appropriate action would be to: a. move in file.

Moving in file means that the unit should arrange themselves in a single line, one after the other, as they navigate through the open terrain. This formation allows for better visibility and reduces the chances of friendly fire incidents. Moving in file helps maintain cohesion within the unit and facilitates communication and coordination among the members. Moving in a wedge formation (option b) is typically used when traversing through dense vegetation or in a tactical formation when conducting specific maneuvers. Double timing (option c) refers to moving at a faster pace than normal, often used in certain military training or conditioning exercises. High crawling (option d) is a low-profile movement technique used when trying to maintain cover and concealment in a prone position.

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a proton in a high-energy accelerator moves with a speed of c/2. use the work–kinetic energy theorem to find the work required to increase its speed to the following speeds. (a) 0.740c (b) 0.873c

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The work required to increase the speed of the proton to Therefore, the work required to increase the speed of the proton to (a) 0.740c is -3.52 x 10⁻¹¹ J and (b) 0.873c is 5.27 x 10⁻¹¹ J

The work-kinetic energy theorem states that the net work done on an object is equal to its change in kinetic energy. Therefore, we can use this theorem to find the work required to increase the speed of a proton in a high-energy accelerator.

Let's first find the kinetic energy of the proton with speed c/2. The kinetic energy (K) of an object with mass m and speed v is given by:

K = (1/2)mv²

Since the proton has a rest mass of 1.67 x 10⁻²⁷ kg, we can calculate its kinetic energy:

K = (1/2)(1.67 x 10⁻²⁷ kg)(c/2)²

K = 9.41 x 10⁻¹¹ J

(a) To find the work required to increase the speed of the proton to 0.740c, we first need to find its final kinetic energy. Since kinetic energy is proportional to the square of the speed, we can use the ratio of speeds to find the final kinetic energy:

(K_final)/(K_initial) = (v_final²)/(v_initial²)

(K_final) = (v_final²)/(v_initial²) * (K_initial)

(K_final) = (0.74c/c/2)² * (9.41 x 10⁻¹¹J)

(K_final) = 5.89 x 10⁻¹¹ J

The change in kinetic energy is:

ΔK = K_final - K_initial

ΔK = 5.89 x 10⁻¹¹ J - 9.41 x 10⁻¹¹J

ΔK = -3.52 x 10⁻¹¹ J

Since the final speed is greater than the initial speed, the work done on the proton is positive. Therefore, the work required to increase the speed of the proton to 0.740c is:

W = ΔK

W = -3.52 x 10⁻¹¹J

(b) To find the work required to increase the speed of the proton to 0.873c, we follow the same steps as in part (a). The final kinetic energy is:

(K_final) = (0.873c/c/2)² * (9.41 x 10⁻¹¹ J)

(K_final) = 1.47 x 10⁻¹⁰J

The change in kinetic energy is:

ΔK = K_final - K_initial

ΔK = 1.47 x 10⁻¹⁰ J - 9.41 x 10⁻¹¹ J

ΔK = 5.27 x 10⁻¹¹ J

Since the final speed is greater than the initial speed, the work done on the proton is positive. Therefore, the work required to increase the speed of the proton to 0.873c is:

W = ΔK

W = 5.27 x 10⁻¹¹J

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What is the maximum possible height that a roller coaster could reach, without any propulsion, when a speed of 65. 0 m/s is reached before the start of a hill? Ignore any type of friction. ​

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When a roller coaster reaches a velocity of 65.0 m/s prior to the ascent of a hill, the maximum height that can be reached without any propulsion is approximately 213.6 meters.

This assumes that there is no energy loss from friction. The energy conservation principle governs the maximum height reached by a roller coaster. At the base of the hill, the roller coaster has kinetic energy (energy of motion), but no potential energy (energy of height). It has the maximum potential energy and minimum kinetic energy at the highest point of the hill, and it returns to the base of the hill with zero potential energy and maximum kinetic energy. The total energy, which is the sum of potential energy and kinetic energy, is always conserved, implying that the energy at the base of the hill equals the energy at the peak of the hill. According to the principle of conservation of energy:Ei = Efwhere Ei is the initial energy, Ef is the final energy, and E = KE + PE, where KE is kinetic energy, and PE is potential energy.Consider the roller coaster with a velocity of 65.0 m/s at the base of the hill. The initial energy of the roller coaster, Ei = KE + PE, is equal to: Ei = (1/2) mv^2 + 0where m is the mass of the roller coaster and v is its velocity. Ei = (1/2) mv^2The final energy of the roller coaster at the highest point on the hill, Ef, is equal to: Ef = 0 + mghwhere h is the height of the roller coaster at the top of the hill.

Equating Ei and Ef:(1/2) mv^2 = mgh

Solving for h, we get: h = (1/2) v^2/g

where g is the acceleration due to gravity.The maximum height that can be attained by a roller coaster without propulsion is h = (1/2) v^2/g.

Substituting v = 65.0 m/s and g = 9.81 m/s²,

we get: h = (1/2) (65.0 m/s)^2/9.81 m/s² = 213.6 meters.

Therefore, the maximum height that a roller coaster can reach without propulsion is around 213.6 meters, given no friction.

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A 75 kg ladder that is 3m in length is placed against a wallat an angle theta. The center of gravity of the ladder is at a point 1.2 mfrom the base of the ladder. The coefficient of static friction at the base of the ladder is .80. There mis no friction between the wall and the ladder.
a, What is the minimum angle the ladder makeswith the horizontal for the ladder not to sleep and fall?
b, What is the minimum angle the ladder makes with the horizontal for the ladder not to slip and fall?
c, What is the vertical force of the ground on the ladder?

Answers

Therefore, the minimum angle the ladder makes with the horizontal for the ladder not to slip and fall is 23.58°. The minimum angle the ladder makes with the horizontal for the ladder not to slip and fall is also 23.

a) To find the minimum angle the ladder makes with the horizontal for the ladder not to slip and fall, we need to consider the forces acting on the ladder.

The weight of the ladder acts downwards, and the normal force and friction force act upwards and in the opposite direction to motion, respectively. In this case, the friction force is at its maximum and equal to the product of the coefficient of static friction and the normal force:

friction force = coefficient of static friction × normal force

sin θ = (1.2 m) / (3 m)

θ = [tex]sin^-1(1.2/3)[/tex]

θ = 23.58°

cos θ = (2.4 m) / (3 m)

cos θ = 0.8

Weight of the ladder = mg = (75 kg) × (9.81 m/s^2) = 735.75 N

Normal force = (weight of the ladder) × cos θ = (735.75 N) × (0.8) = 588.6 N

Friction force = (coefficient of static friction) × (normal force) = (0.8) × (588.6 N) = 470.88 N

Torque due to weight = (weight of the ladder) × (distance to center of gravity) = (735.75 N) × (1.2 m) = 882.9 N·m

Torque due to normal force = (normal force) × (distance to base of ladder) = (588.6 N) × (3 m) = 1765.8 N·m

Since the torque due to the normal force is greater than the torque due to the weight of the ladder, the ladder will not slip and fall.

Therefore, the minimum angle the ladder makes with the horizontal for the ladder not to slip and fall is 23.58°.

b)

Using the same values as before, we get:

Torque due to weight = (weight of the ladder) × (distance to center of gravity) = (735.75 N) × (1.2 m) = 882.9 N·m

Torque due to normal force = (normal force) × (distance to base of ladder) = (588.6 N) × (3 m) = 1765.8 N·m

Since the torque due to the normal force is greater than or equal to the torque due to the weight of the ladder, the ladder will not slip and fall.

Therefore, the minimum angle the ladder makes with the horizontal for the ladder not to slip and fall is also 23.

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50.0kg football player strikes a 75.0kg tackle dummy causing it to accelerate at 3,00m/s? What is the force on the football player? 25.ON 150.N 16.7N 225N

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The force on the football player can be calculated using Newton's second law of motion, which states that force (F) is equal to mass (m) multiplied by acceleration. F = 150 N

In this case, the mass of the football player is 50.0 kg and the acceleration is 3.00 m/s².

Using the formula F = m × a, we can substitute the given values:

F = 50.0 kg × 3.00 m/s²

Calculating the result:

F = 150 N

Therefore, the force on the football player is 150 N. This means that the football player experiences a force of 150 Newtons due to the impact with the tackle dummy. The force on the football player can be calculated using Newton's second law of motion, which states that force (F) is equal to mass (m) multiplied by acceleration. F = 150 N

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a compound pendulum consists of a 1.12-m stick pivoted at a small hole drilled at a distance d from the middle of the stick. if the period of oscillation is 3.20 s, find d.

Answers

The distance from the middle of the stick to the pivot point is approximately 0.348 m.

We can use the formula for the period of a compound pendulum, which is T=2π√(I/mgd), where T is the period, I is the moment of inertia of the pendulum, m is the mass of the pendulum, g is the acceleration due to gravity, and d is the distance from the pivot point to the center of mass of the pendulum.
In this case, we can assume that the mass of the pendulum is concentrated at its center of mass, which is located at the midpoint of the stick. The moment of inertia of the pendulum about the pivot point is given by I=(1/12)mL^2+(1/4)m(d^2+(L/2)^2), where L is the length of the stick.
Substituting these values into the formula for the period, we get:
3.20 s = 2π√[(1/12)mL^2+(1/4)m(d^2+(L/2)^2)]/(mgd)
Solving for d, we get:
d = [(1/4)L^2+((T/2π)^2)(L^2/12)]/(T/2π)^2
Plugging in the given values of L=1.12 m and T=3.20 s, we get:
d = [(1/4)(1.12 m)^2+((3.20 s/2π)^2)(1.12 m)^2/12]/(3.20 s/2π)^2
Simplifying this expression, we get:
d ≈ 0.348 m
Therefore, the distance from the middle of the stick to the pivot point is approximately 0.348 m.

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what is the angle between a support force and the surface on object rests upon

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The angle between a support force and the surface an object rests upon is always 90 degrees, perpendicular to the surface.

This is because the support force, also known as the normal force, is generated by the surface in response to the weight of the object pressing down upon it. The normal force acts in a direction perpendicular to the surface, in order to prevent the object from sinking into the surface or passing through it.

In other words, the normal force is always oriented in such a way as to counteract the force of gravity and keep the object at rest on the surface. Therefore, the angle between the support force and the surface is always 90 degrees.

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The most stable element in the universe, the one that doesn’t pay off any energy dividends if forced to undergo nuclear fusion and also doesn’t decay to anything else, is
a. Hydrogen
b. Carbon
c. Uranium
d. Technetium
e. Iron

Answers

The most stable element in the universe is iron (e).

The most stable element in the universe is iron (e). This is because iron has the highest binding energy per nucleon, meaning it takes the most energy to break apart an iron nucleus into its individual protons and neutrons. Iron is also the point at which nuclear fusion stops releasing energy and instead requires energy to continue. This is because fusion reactions involving lighter elements (such as hydrogen) release energy due to the formation of a more stable nucleus, but fusion reactions involving heavier elements (such as iron) require energy to overcome the repulsion between the positively charged nuclei. As for the other options, hydrogen can undergo fusion to form helium and release energy, carbon can undergo fusion to form heavier elements and release energy, uranium is radioactive and can decay into other elements, and technetium is an artificially created element and is not naturally occurring.

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The most stable element in the universe is iron (Fe),the one that doesn’t pay off any energy dividends if forced to undergo nuclear fusion and also doesn’t decay to anything else.

Hence, the correct answer is E.

The most stable element in the universe is iron (Fe) which has the lowest mass per nucleon (the number of protons and neutrons in the nucleus) and the highest binding energy per nucleon.

Iron has the most tightly bound nucleus, meaning that it requires the most energy to either fuse its nuclei together or break it apart into smaller nuclei.

This is why iron is often called the "end point" of nuclear fusion, as no energy can be extracted by fusing iron nuclei together, and it is also why iron is a common constituent in the cores of stars.

Hence, the correct answer is E.

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fluid flows at 5 m/s in a 5 cm diameter pipe section. the section is connected to a 10 cm diameter section. at what velocity does the fluid flow in the 10 cm section? (A) 1.00 m/s (B) 1.25 m/s (C) 2.50 m/s (D) 10.0 m/s 7

Answers

The velocity does the fluid flow in the 10 cm section is (B) 1.25 m/s.



To solve this problem, we can use the principle of conservation of mass, which states that the mass of a fluid flowing through a pipe remains constant. In other words, the mass flow rate (mass per unit time) is the same at any cross-section of the pipe.

We can express the mass flow rate as:

mass flow rate = density x area x velocity

where density is the density of the fluid, area is the cross-sectional area of the pipe, and velocity is the fluid velocity.

Since the pipe is connected in series, the mass flow rate at the 5 cm section is the same as the mass flow rate at the 10 cm section. We can write:

density x area at 5 cm x velocity at 5 cm = density x area at 10 cm x velocity at 10 cm

We are given the velocity at the 5 cm section (5 m/s) and the diameter at both sections (5 cm and 10 cm). We can use the formula for the area of a circle (A = πr^2) to find the areas:

area at 5 cm = π(2.5 cm)² = 19.63 cm²
area at 10 cm = π(5 cm)² = 78.54 cm²

Substituting these values and solving for the velocity at 10 cm, we get:

density x 19.63 cm² x 5 m/s = density x 78.54 cm² x velocity at 10 cm
velocity at 10 cm = (19.63/78.54) x 5 m/s
velocity at 10 cm = 1.25 m/s

Therefore, the fluid flows at a velocity of 1.25 m/s in the 10 cm diameter section. The answer is (B) 1.25 m/s.

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x-rays with initial wavelength 0.0795 nm undergo compton scattering. part a what is the largest wavelength found in the scattered x-rays?

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The largest wavelength found in the scattered X-rays is approximately 0.08436 nm.

How large is the scattered X-ray wavelength?

In Compton scattering, X-rays interact with electrons and undergo a change in wavelength due to the elastic scattering process. The change in wavelength is given by the Compton wavelength shift equation:

Δλ = λ' - λ = λc (1 - cosθ)

where:

Δλ is the change in wavelength

λ' is the wavelength of the scattered X-rays

λ is the initial wavelength of the X-rays

λc is the Compton wavelength (approximately 0.00243 nm)

θ is the scattering angle between the initial and scattered X-rays

To find the largest wavelength found in the scattered X-rays, we need to determine the maximum change in wavelength, which occurs when the scattering angle is 180 degrees (π radians).

Part A: At θ = π, the equation becomes:

Δλ_max = λ' - λ = λc (1 - cos(π))

Since cos(π) = -1, we have:

Δλ_max = λc (1 - (-1)) = 2λc

Given the initial wavelength λ = 0.0795 nm, we can find the largest wavelength (λ') in the scattered X-rays:

λ' = λ + Δλ_max = λ + 2λc

Substituting the values, we get:

λ' = 0.0795 nm + 2(0.00243 nm) = 0.0795 nm + 0.00486 nm

λ' ≈ 0.08436 nm

Therefore, the largest wavelength found in the scattered X-rays is approximately 0.08436 nm.

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A particle's acceleration is described by the function ax =(10 −t)m/s2, where t is in s. Its initial conditions are x0 = 260 m and v0x =0m/s at t =0s.
At what time is the velocity again zero? What is the particle's position at that time?

Answers

At t = 20s, the velocity is zero again, and the particle's position is approximately 133.33 m.

To find the time when the velocity is zero again, we first need to determine the velocity function by integrating the acceleration function:

a_x = (10 - t) m/s²

Integrating with respect to time (t), we get:

v_x(t) = ∫(10 - t) dt = 10t - (1/2)t² + C

Given the initial condition v0x = 0 m/s at t = 0s, we can find C:

0 = 10(0) - (1/2)(0)² + C
C = 0

So, v_x(t) = 10t - (1/2)t²

Now, we need to find the time (t) when the velocity is zero again:

0 = 10t - (1/2)t²
0 = t(10 - (1/2)t)

This equation has two solutions: t = 0s (initial time) and t = 20s. We're interested in the second solution (t = 20s).

To find the particle's position at t = 20s, we integrate the velocity function:

x(t) = ∫(10t - (1/2)t²) dt = 5t² - (1/6)t³ + D

Using the initial condition x0 = 260m at t = 0s, we find D:

260 = 5(0)² - (1/6)(0)³ + D
D = 260

So, x(t) = 5t² - (1/6)t³ + 260

Now, we find the position at t = 20s:

x(20) = 5(20)² - (1/6)(20)³ + 260 ≈ 133.33 m

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A 0.25 kg softball has a velocity of 19 m/s at an angle of 41° below the horizontal just before making contact with the bat. What is the magnitude of the change in momentum of the ball while it is in contact with the bat if the ball leaves the bat with a velocity of (a)17 m/s, vertically downward, and (b)17 m/s, horizontally back toward the pitcher?

Answers

(a) The magnitude of the change in momentum of the ball is 6.75 kg·m/s downward.

(b) The magnitude of the change in momentum of the ball is 4.25 kg·m/s toward the pitcher.

(a) To find the change in momentum, we first calculate the initial momentum using p = mv, where m is the mass and v is the velocity. The initial momentum is 0.25 kg × 19 m/s = 4.75 kg·m/s. Since the final velocity is 17 m/s vertically downward, the final momentum is 0.25 kg × (-17 m/s) = -4.25 kg·m/s. The change in momentum is the difference between the initial and final momenta, so it is 4.75 kg·m/s - (-4.25 kg·m/s) = 6.75 kg·m/s downward.

(b) The initial momentum is still 4.75 kg·m/s. Since the final velocity is 17 m/s horizontally back toward the pitcher, the final momentum is 0.25 kg × (-17 m/s) = -4.25 kg·m/s. The change in momentum is 4.75 kg·m/s - (-4.25 kg·m/s) = 9 kg·m/s toward the pitcher. However, we only need the magnitude, so it is 4.25 kg·m/s toward the pitcher.

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. which one of the following diatomic molecules is least likely to exist? select all that apply and briefly explain your reasoning. i. li2 ii. be2 iii. b2

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Out of the three diatomic molecules given, Be2 is the least likely to exist. This is because Be has a small atomic size, and its valence electrons are close to the nucleus, which results in a high ionization energy.

Hence, it is difficult to remove the valence electrons to form bonds with another Be atom. Moreover, the Be atom has only two valence electrons, which makes it impossible to form more than two bonds, as each bond requires one electron. This means that Be2 cannot exist as a stable molecule.
On the other hand, Li2 and B2 are more likely to exist as diatomic molecules. Li has a larger atomic size than Be, and its valence electrons are farther from the nucleus, which results in a lower ionization energy. Therefore, it is easier to remove the valence electrons to form bonds with another Li atom. B also has a larger atomic size than Be, and it has three valence electrons, which can form three bonds with another B atom, resulting in the formation of a stable B2 molecule.
In summary, Be2 is the least likely to exist as a stable diatomic molecule due to its small atomic size, high ionization energy, and inability to form more than two bonds. Li2 and B2 are more likely to exist due to their larger atomic sizes, lower ionization energies, and ability to form stable bonds with another atom of the same element.

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What is the energy required to move one elementary charge through a potential difference of 5.0 volts? a) 8.0 J. b) 5.0 J. c) 1.6 x 10^-19J. d) 8.0 x 10^-19 J.

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The energy required to move one elementary charge (e) through a potential difference (V) can be calculated using the formula:E = qV the answer is (d) 8.0 x 10^-19 J.

In physics, potential refers to the energy per unit of charge associated with a physical system. It is often used in the context of electric potential, which is the potential energy per unit of charge associated with a static electric field. Electric potential is measured in units of volts (V) and is defined as the work done per unit charge in moving a test charge from infinity to a point in the electric field.The electric potential difference, or voltage, between two points in an electric field is defined as the work done per unit charge in moving a test charge from one point to the other.

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Part B Evaluate Vterm for Ebat = 3.0V, r=0.10 12,1 = 7 cm , and B = 0.40 T. Express your answer to two significant figures and include the appropriate units. ? μΑ Value Units Vterm = Submit Request Answer < Homework 10A Problem 30.58 Part A You've decided to make a magnetic projectile launcher shown in the figure for your science project. An aluminum bar of length 1 slides along metal rails through a magnetic field B. The switch closes at t = 0s, while the bar is at rest, and a battery of emf Ebat starts a current flowing around the loop. The battery has internal resistance r. The resistance of the rails and the bar are effectively zero. (Figure 1) The bar reaches terminal speed Uterm. Find an expression for Uterm Express your answer in terms of Ebat (not the Greek letter epsilon Ebat), B, and I. ? IVO AO E Vterm = B1 Figure 1 of 1 Submit Previous Answers Request Answer X Incorrect; Try Again: 5 attempts remaining Part B X X with B Evaluate Utern for Ebat = 3.0V, r=0.102, 1 = 7 cm , and B=0.40 T. Express your answer to two significant figures and include the appropriate units. x x ЦА ?

Answers

The terminal velocity (Vterm) is 0.25 m/s to two significant figures with the appropriate units.

To find the terminal velocity (Vterm) for the given parameters, we can use the expression derived in Part A:
Vterm = Ebat / (B * I)
Now we need to find the current (I) flowing in the circuit. To do this, we can use Ohm's Law:
I = Ebat / (r + R)
Since the resistance of the rails and the bar are effectively zero (R ≈ 0), the equation simplifies to:
I = Ebat / r
Now we can plug in the given values: Ebat = 3.0 V, r = 0.10 Ω, B = 0.40 T.
Step 1: Calculate the current (I).
I = Ebat / r
I = 3.0 V / 0.10 Ω
I = 30 A
Step 2: Calculate the terminal velocity (Vterm).
Vterm = Ebat / (B * I)
Vterm = 3.0 V / (0.40 T * 30 A)
Vterm = 3.0 V / 12 T·A
Vterm = 0.25 m/s
The terminal velocity (Vterm) is 0.25 m/s to two significant figures with the appropriate units.

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what are tides? what are tides? the regular daily rises and falls in sea level caused by the gravitational attraction of the moon on earth the regular daily rises and falls in sea level caused by the gravitational attraction of the moon and sun on earth the regular weekly rises and falls in sea level caused by the gravitational attraction of the moon on earth the regular weekly rises and falls in sea level caused by the gravitational attraction of the moon and sun on earth the regular daily rises and falls in sea level caused by the gravitational attraction of the sun on earth

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The regular daily rises and falls in sea level caused by the gravitational attraction of the moon and sun on earth.

What is Gravitational attraction?

Gravitational attraction is the force of attraction between two objects with mass. The strength of the gravitational attraction depends on the masses of the objects and the distance between them. The greater the mass of the objects and the closer they are to each other, the stronger the gravitational attraction between them.

Tides are the regular daily rises and falls in sea level that are caused by the gravitational attraction of the moon and the sun on the Earth. As the Earth rotates, it experiences two high tides and two low tides every day. The gravitational pull of the moon causes a bulge in the ocean on the side of the Earth that faces the moon, resulting in a high tide. On the opposite side of the Earth, there is also a high tide because the gravitational force of the moon pulls the Earth away from the ocean on that side.

In addition to the moon, the sun also contributes to the tidal forces on Earth, although to a lesser extent due to its greater distance. When the sun and the moon are aligned, their tidal forces combine to create especially high "spring tides." When they are at right angles to each other, their tidal forces partially cancel out, resulting in lower "neap tides."

Tides play an important role in coastal ecosystems, navigation, and other human activities that rely on the ocean.

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Rotational motion is defined similarly to linear motion. What is the definition of rotational velocity? O How far the object rotates How fast the object rotates The rate of change of the speed of rotation The force needed to achieve the rotation

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Rotational motion is defined as the movement of an object around an axis or a point. Rotational velocity, on the other hand, refers to the speed at which the object is rotating around its axis. It is measured in radians per second (rad/s) or degrees per second (°/s). Rotational velocity depends on two factors: how far the object rotates and how fast it rotates.

The first factor, how far the object rotates, refers to the angle that the object rotates through. This is measured in radians or degrees and is related to the distance traveled along the circumference of a circle. The second factor, how fast the object rotates, refers to the rate of change of the angle over time. It is measured in radians per second or degrees per second and is related to the angular speed of the object.
Therefore, the definition of rotational velocity is the rate of change of the angle of rotation of an object over time. It describes how quickly the object is rotating around its axis and is related to the angular speed of the object. It does not depend on the force needed to achieve the rotation, as this is related to the torque applied to the object.

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a real gas behaves as an ideal gas when the gas molecules are

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A real gas behaves as an ideal gas when the gas molecules are far apart and have negligible intermolecular interactions.

In more detail, an ideal gas is a theoretical gas that is composed of particles that have no volume and do not interact with each other except through perfectly elastic collisions. In reality, all gases have some volume and intermolecular forces that can affect their behavior. At high temperatures and low pressures, however, the effects of intermolecular forces become less significant, and gas molecules behave more like ideal gases. This is because the average distance between molecules is greater, and there are fewer collisions between them. Conversely, at low temperatures and high pressures, real gases behave less like ideal gases because the molecules are closer together and interact more strongly.

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how do astronomers now explain the fact that the energy emitting regions for quasars are so small?

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Astronomers now explain the small size of the energy emitting regions in quasars through the concept of an  accretion disk surrounding a supermassive black hole.

The size of the energy emitting regions in quasars appears small because the accretion disk is compact and confined to a relatively small region around the supermassive black hole. The intense gravity of the black hole compresses the matter in the disk, leading to high temperatures and strong energy emissions in a relatively confined area. Observations and theoretical models support this explanation, providing a coherent understanding of the small energy emitting regions in quasars within the framework of accretion disks surrounding supermassive black holes.

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a current of 6.05 a in a solenoid of length 11.8 cm creates a 0.327 t magnetic field at the center of the solenoid. how many turns does this solenoid contain?

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The solenoid contains approximately 197 turns.

We can use the equation for the magnetic field inside a solenoid to determine the number of turns:
B = μ₀nI
where B is the magnetic field,
μ₀ is the permeability of free space,
n is the number of turns per unit length, and
I is the current.

We are given B, I, and the length of the solenoid (which is also the distance from the center to the end), but we need to find n to solve for the total number of turns.

First, we can use the length of the solenoid to find the number of turns per unit length:
n = N/L
where N is the total number of turns and
L is the length.

Substituting this into the previous equation and solving for N, we get:
N = nL = (B/μ₀I)L

Plugging in the given values, we get:
N = (0.327 T)/(4π x 10^-7 T·m/A)(6.05 A)(0.118 m) ≈ 197 turns

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The angular momentum of a rotating two-dimensional rigid body about its center of mass G is ___________.A) m vG B) IG vGC) m w D) IG w

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The angular momentum of a rotating two-dimensional rigid body about its center of mass G is option (B) IG vG.

Angular momentum is a measure of the rotational motion of an object and is defined as the product of the moment of inertia and the angular velocity.

For a rigid body rotating about a fixed axis, the moment of inertia is a measure of the body's resistance to rotational motion about that axis.

In the case of a rotating two-dimensional rigid body about its center of mass G, the moment of inertia about the axis passing through G is denoted by IG. The angular velocity of the body is denoted by ω.

The linear velocity of any point on the body at a distance r from the center of mass G is given by vG = ωr, where r is the distance from the point to the center of mass.

The angular momentum of the rigid body about its center of mass G is given by the formula:

L = IG ω

Substituting vG = ωr, we get:

L = IG (vG / r)

Multiplying and dividing by m, where m is the mass of the body, we get:

L = (IG / m) * (m vG) = (IG / m) * P

where P = m vG is the linear momentum of the rigid body about its center of mass G.

Thus, the angular momentum of a rotating two-dimensional rigid body about its center of mass G is IG vG.

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Giant electric eels can deliver a voltage shock of 5.00×102 V and up to 1.00 A of current for a brief time. What is the maximum power a giant electric eel can deliver to its prey during this time?


maximum power:



The body of a snorkeler swimming in salt water has a resistance of about 615 Ω . If the snorkeler is unfortunate enough to be struck by the eel, what current will flow through her body?


current: A


A current of about 500 mA can cause heart fibrillation and death if it lasts too long.


Is the current through the swimmer in this case large enough to be dangerous?



no or Yes




What power does the snorkeler receive from the eel?


power:

Answers

The maximum power a giant electric eel can deliver to its prey is 5.00×10^2 V × 1.00 A = 5.00 × 10^2 W. the current through the swimmer in this case is not large enough to be dangerous.

If the snorkeler's body resistance is 615 Ω and the eel delivers a voltage of 5.00×10^2 V, then the current flowing through the snorkeler's body can be calculated using Ohm's Law: I = V/R. Hence, I = (5.00×10^2 V) / (615 Ω) ≈ 0.813 A.

The current of 0.813 A is less than 500 mA, the threshold for causing heart fibrillation and death. Therefore, the current through the swimmer in this case is not large enough to be dangerous.

The power received by the snorkeler can be calculated using the formula P = IV. Thus, P = (0.813 A) × (5.00×10^2 V) ≈ 4.07 × 10^2 W.

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A puck of mass 5 kg moving at 2 m/s approaches an identical puck that is stationary on frictionless ice. After the collision, the first puck leaves with speed v1 at 30 ∘ to the original line of motion, the second puck leaves with speed v2 at 60 ∘ . (a) Calculate v1 and v2 (b) Was the collision elastic?

Answers

a) The value of [tex]V_{1}[/tex] = 2.05 m/s and[tex]V_{2}[/tex] = 1.45 m/s.

b) The collision is not elastic.

We can use conservation of momentum and conservation of energy to solve this problem.

(a) Calculation of[tex]V_{1}[/tex] and [tex]V_{2}[/tex]:

Conservation of momentum in the x-direction:

5 kg × 2 m/s = 5 kg [tex]V_{1}[/tex] cos(30°) + 5 kg [tex]V_{2}[/tex] cos(60°)

Simplifying this equation, we get:

2 = [tex]V_{1}[/tex] cos(30°) +[tex]V_{2}[/tex]cos(60°)

Conservation of momentum in the y-direction:

0 = 5 kg [tex]V_{1}[/tex] sin(30°) - 5 kg [tex]V_{2}[/tex] sin(60°)

Simplifying this equation, we get:

[tex]V_{1}[/tex]sin(30°) = [tex]V_{2}[/tex]sin(60°)

Squaring both sides, we get:

[tex]V_{1}^{2}[/tex] sin^2(30°) = [tex]V_{2}^{2}[/tex] sin^2(60°)

Substituting sin(30°) = 0.5 and sin(60°) = 0.866, we get:

[tex]V_{1}^{2}[/tex] (0.25) = [tex]V_{2}^{2}[/tex] (0.75)

[tex]V_{1}^{2}[/tex] = 3 [tex]V_{2}^{2}[/tex]

Substituting this relation into the equation for conservation of momentum in the x-direction, we get:

2 =[tex]V_{1}[/tex] cos(30°) + [tex]V_{2}[/tex] cos(60°)

2 = ([tex]V_{2}[/tex] [tex]\sqrt{3}[/tex])) / 2 + [tex]V_{2}[/tex] / 2

4 = v2 [tex]\sqrt{3}[/tex] + [tex]V_{2}[/tex]

[tex]V_{2}[/tex] = 1.45 m/s

Substituting this value of [tex]V_{2}[/tex]into the equation for [tex]V_{1}[/tex] we get:

2 = [tex]V_{1}[/tex]cos(30°) + [tex]V_{2}[/tex] cos(60°)

2 = [tex]V_{1}[/tex][tex]\sqrt{3}[/tex]) / 2 + (1.45 m/s) / 2

[tex]V_{1}[/tex]= 2.05 m/s

Therefore,[tex]V_{1}[/tex]= 2.05 m/s and [tex]V_{2}[/tex] = 1.45 m/s.

(b) Calculation of whether the collision is elastic:

To determine if the collision is elastic, we can use the coefficient of restitution (e):

e = ([tex]V_{2}[/tex]f - v1f) / ([tex]V_{2}[/tex]i - v1i)

where [tex]V_{2}[/tex]i and [tex]V_{1}[/tex]i are the initial velocities of the two pucks, and v2f and [tex]V_{1}[/tex]f are their final velocities.

In this case, the initial velocity of the second puck is 0, so the coefficient of restitution simplifies to:

e = [tex]V_{2}[/tex]f / [tex]V_{1}[/tex]i

Substituting the values of [tex]V_{1}[/tex]i and[tex]V_{2}[/tex]f, we get:

e = 1.45 m/s / 2 m/s = 0.725

Since the coefficient of restitution is less than 1, the collision is not elastic. Some kinetic energy is lost during the collision, possibly due to deformation of the pucks or friction between them and the ice.

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