rolling railroad car a makes a perfectly elastic collision with railroad car b of the same mass. after the collision, car a is at rest. how does the speed of car b compare with the initial speed of car a?

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Answer 1

When a rolling railroad car makes a perfectly elastic collision with railroad car B of the same mass, after the collision, car A is at rest. The speed of car B after the collision is equal to the initial speed of car A.

Before the collision, car A had a velocity of v, while car B had a velocity of zero because it was at rest. As a result of the collision, car A comes to a halt, while car B acquires the initial speed of car A.

Because the collision is elastic, the momentum and energy of the two cars are conserved.

A perfectly elastic collision is a collision in which both the momentum and kinetic energy of the system are conserved. This means that the total momentum and kinetic energy of the system before the collision is equal to the total momentum and kinetic energy of the system after the collision.

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Related Questions

on motorized solar panel arrays, the panels are moved in order to? select one: a. allow room for maintenance b. track the movement of the sun c. shed snow and ice d. adjust to prevailing wind conditions

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On motorized solar panel arrays, the panels are moved in order to track the movement of the sun. The correct answer is option b.

A motorized solar panel array is a device that can adjust the solar panel's orientation to the sun to maximize electricity production. As the sun moves across the sky, photovoltaic solar panels must adjust their orientation to remain perpendicular to the sun's rays.

By tilting or turning solar panels, solar panels can increase energy production. Motorized solar panel arrays enable solar panels to be tracked using an algorithm that considers the time of day, year, and latitude.

Solar panel tracking systems keep solar panels facing the sun to increase energy generation. The most basic tracking systems involve manually adjusting the solar panels' orientation. Motorized solar panel arrays, which automatically adjust the panels' angles based on the time of day, year, and location, are more sophisticated.

Dual-axis tracking systems can adjust the panels both vertically and horizontally. The result is an increase in the amount of energy generated by the solar panels. Therefore option b is correct.

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a steel beam that is 7.00 m long weighs 340 n. it rests on two supports, 3.00 m apart, with equal amounts of the beam extending from each end. suki, who weighs 510 n, stands on the beam in the center and then walks toward one end. how close to the end can she come before the beam begins to tip?

Answers

A 7.00 m long steel bar weighs 340 n. It sits on two supports that are three meters apart, with the beam stretching equally from each end. Suki can come as close as 0.748 m to one end of the beam before it begins to tip.

To determine how close Suki can come to one end of the beam before it begins to tip, we need to find the point where the torque on one side of the beam equals the torque on the other side of the beam. The torque is the force multiplied by the perpendicular distance to the pivot point.

Initially, the beam is balanced and there is no torque acting on it. When Suki stands on the beam in the center, her weight exerts a downward force of 510 N at the midpoint of the beam. This force creates a clockwise torque around the midpoint since it is acting on one side of the pivot point.

To counteract this torque, an equal and opposite torque needs to be applied to the other side of the pivot point. This can be achieved by applying a force at a greater distance from the pivot point since torque is proportional to the distance.

The total weight of the beam and Suki is 340 N + 510 N = 850 N. This weight is evenly distributed along the length of the beam. Therefore, the weight of the portion of the beam extending from one support to the point where Suki is standing is:

w = (1/2) × 850 N = 425 N

The distance from the midpoint to one end of the beam is 3.5 m. To find how close Suki can come to one end of the beam before it begins to tip, we can use the formula for torque:

τ = F × d

where τ is the torque, F is the force, and d is the distance from the pivot point.

If Suki is a distance x from the midpoint of the beam, then the weight of the portion of the beam extending from that point to the end is:

w' = w - (x / 3.5) × w

The torque due to the weight of this portion of the beam is:

τ1 = w' × x

The torque due to Suki's weight is:

τ2 = 510 N × (x/2)

Setting these two torques equal, we have:

w' × x = 510 N × (x/2)

Solving for x, we get:

x = 2 × w' / 510 N

Substituting the expression for w', we have:

x = 2 × (w - (x/3.5) × w) / 510 N

Solving for x, we get:

x = 0.748 m

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how do spectra show the difference between a type i supernova and a type ii supernova? why does this difference arise? type i supernovae occur when a star composed of

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Type I supernovae occur when a star composed mainly of carbon and oxygen accretes matter from a companion star or merges with another white dwarf whereas Type II supernovae are the result of massive stars, containing hydrogen, that has exhausted their nuclear fuel.

Spectra show the difference between a Type I supernova and a Type II supernova by analyzing the elements present in each explosion.

Step 1: Observe the spectra of the supernovae. The spectra display the wavelengths of light emitted by the elements in the explosion.

Step 2: Identify the presence or absence of hydrogen. Type II supernovae have hydrogen lines in their spectra, whereas Type I supernovae do not.

Step 3: Analyze the elements present in Type I supernovae. Type I supernovae are further divided into subcategories based on their spectral lines. For example, Type Ia supernovae show strong silicon lines.

The difference arises due to the nature of the progenitor stars and the mechanisms causing the explosion.  When the mass reaches the critical limit, the star undergoes a thermonuclear explosion, resulting in a Type I supernova without hydrogen.

On the other hand, Type II The core collapses under its own gravity, causing a violent explosion that ejects the outer layers, including hydrogen, thus showing hydrogen lines in their spectra.

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a roller-coaster car has a potential energy of 750 kj and a kinetic energy of 165 kj at point a in its travel. at the low point of the ride, the potential energy is zero, and 60 kj of heat has been generated by friction since it left point a. what is the kinetic energy of the roller coaster at this low point?

Answers

The kinetic energy of the roller coaster at the low point can be calculated using the conservation of energy principle.

The total energy at point A is equal to the sum of its kinetic and potential energies. At the low point, all the potential energy has been converted into kinetic energy. But, some energy has been lost due to friction, which is given as 60 kJ. Therefore, the kinetic energy at the low point can be calculated as follows: Initial energy at point A = Potential energy + Kinetic energy= 750 kJ + 165 kJ = 915 kJFinal energy at the low point = Kinetic energy = Potential energy at the low point= 0 kJUsing the conservation of energy principle, we have: Initial energy = Final energy + Energy lost in frictionOr915 kJ = Kinetic energy at the low point + 60 kJ Kinetic energy at the low point = 915 kJ - 60 kJ Kinetic energy at the low point = 855 kJTherefore, the kinetic energy of the roller coaster at the low point is 855 kJ.

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a square object of mass m is constructed of four identical uniform thin sticks, each of length l, attached together. this object is hung on a hook at its upper corner (fig. p14.73). if it is rotated slightly to the left and then released, at what frequency will it swing back and forth?

Answers

The square object's swinging motion can be represented by a simple pendulum. The object's center of mass lies at the intersection of its diagonals, and its moment of inertia may be computed as I = (1/12)ml2.

The frequency of the object's oscillation may be computed using the small angle approximation as f = (1/2) (mgl/I), where g is the acceleration due to gravity. The length of the pendulum is equal to the distance from the center of mass to the point of attachment, which may be computed as l/22. We get f = (1/2) (4g/l) by substituting the moment of inertia and the length into the frequency equation.  a result, the frequency of  oscillation of the square object is independent of its mass and is only determined by the length of its sides and the acceleration due to gravity. The frequency of oscillation is approximately 0.83 Hz for a square object with sides of length l.

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what is the change in the velocity of madeleine during the collision? take east to be the positive direction.

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The change in velocity of Madeleine during the collision is -5 m/s.

When a moving object comes into contact with a stationary or moving object, the collision between them can cause a change in their velocities. During the collision, the momentum of the system is conserved. Based on this, the change in velocity of Madeleine during the collision can be calculated as follows:

Change in velocity of Madeleine = final velocity of Madeleine - initial velocity of Madeleine

Given that East is taken to be the positive direction, and Madeleine moves towards the East before the collision with the stationary object.

The initial velocity of Madeleine is +3 m/s.

After the collision, Madeleine stops moving towards the East and starts moving towards the West. Hence, the final velocity of Madeleine is -2 m/s. Change in velocity of Madeleine = (-2) - 3= -5 m/s

Therefore, the change in velocity of Madeleine during the collision is -5 m/s.

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christopher and his mother went on a camping trip. his mother struck a match to light a lantern. which forms of energy did the burning match give off? responses nuclear and solar nuclear and solar solar and thermal solar and thermal thermal and light thermal and light nuclear and light

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Thermal and light energy are the two types of energy emitted by a burnt match. On their camping vacation, Christopher's mother struck a match to light a lantern, and the burning match released two types of energy.

heat and light. Once the matchstick began to burn, the chemical energy held in it was transformed into thermal energy, generating heat in the process. The heat then drove the surrounding air molecules to vibrate, generating thermal energy that Christopher and his mother could feel. The burning match emitted light energy in addition to temperature energy. The chemical processes that occurred while the matchstick burnt created light energy in the form of a flame. Christopher and his mother were able to perceive this light energy, which gave the lighting required to light the lantern. the burning match gave off both thermal and light energy, which are common forms of energy released during combustion reactions.

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Under what condition is the angular momentum of an object conserved? -If there are no torques acting on it. -If there is no net torque acting on it. -If it is a point particle. -If there is no net force acting on it

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The correct answer is: If there is no net torque acting on it. Angular momentum is conserved for a system if there is no net torque acting on the system.

In other words, if the sum of all torques acting on the system is zero, then the angular momentum of the system is conserved. This is known as the law of conservation of angular momentum.

It is important to note that this applies to the entire system, not just individual objects within the system.

Additionally, the objects within the system may have changes in their individual angular momentum, but the total angular momentum of the system will remain constant if there is no net torque acting on it.

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the occupants of a car traveling at a speed of 45 m/s note that on a particular part of a road their apparent weight is 15% higher than their weight when driving on a flat road. what is the vertical curvature of the road?

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The vertical curvature (radius of curvature) of the road is approximately 1370.6 meters. To solve this problem, we can follow these steps:

Step 1: Identify the given information

- Speed of the car (v) = 45 m/s

- Apparent weight increase = 15%

Step 2: Calculate the increase in gravitational force

Since the occupants' apparent weight is 15% higher,

the additional force acting on them can be calculated as 0.15 times the gravitational force (g), which is approximately 9.81 m/s^2.

- Additional force = 0.15 * 9.81 m/s² = 1.4715 m/s²

Step 3: Determine the centripetal acceleration
The additional force acting on the occupants is due to the centripetal acceleration (a_c) caused by the curvature of the road.

The centripetal acceleration can be calculated using the formula:

- a_c = v² / r, where r is the radius of curvature of the road.

Step 4: Calculate the radius of curvature

Rearrange the centripetal acceleration formula to find the radius of curvature

(r):- r = v² / a_c

Step 5: Substitute the values and calculate r

- r = (45 m/s)² / 1.4715 m/s²

- r ≈ 1370.6 meters

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The following questions (8-11) refer to the following circuit. EMF=5v and internal resistance of battery is 0.7Ω.

Need answers asap pls and thank you!!!!

Answers

8.To find the total resistance of the external circuit, we can add up the resistances of the three resistors in series: R = 20 + 30 + 50 = 100Ω.

9.To find the current drawn from the battery, we can use Ohm's Law: I = V / R = 5 / (0.7 + 100) = 0.048 A.

10.The terminal voltage of the battery can be found using the equation V = EMF - Ir, where r is the internal resistance of the battery. So, V = 5 - (0.048 * 0.7) = 4.966 V.

11.To measure the voltage across the 20Ω resistor, the voltmeter should be connected in parallel to the resistor. To measure the current through the resistor, the ammeter should be connected in series with the resistor.

If the circuit is not disconnected, the measurements would be accurate as the ammeter and voltmeter would be reading the values when the circuit is operational. The ammeter would read 0.048 A, which is the same as the current drawn from the battery, and the voltmeter would read 0.96 V, which is the voltage across the 20Ω resistor.

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6. What type of precipitation have ice crystals melt as they fall through a slightly warmer layer of air? Then, they refreeze into small ice pellets as they pass through a cold layer of air closer to the ground.

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The type of precipitation described in this scenario is called sleet. It occurs when snowflakes melt into raindrops in a layer of warm air, and then refreeze into ice pellets before reaching the ground in a layer of cold air closer to the surface.

Sleet is often associated with winter storms and can make roads and sidewalks slippery and hazardous.Sleet is the term for the process you are describing. Sleet is a type of precipitation that develops when snowflakes travel through a warm air layer and partially melt before falling through a cold air layer closer to the ground and refreezing as ice pellets. This typically occurs when there is a warm air layer above and a cold air layer close to the surface. When snowflakes fall through warm air, they start to melt, but if the temperature is below freezing close to the ground, they will refreeze into ice pellets before they reach the surface. Sleet differs from freezing rain, which happens when droplets come into contact with a cold surface, like the ground, and then freeze.

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a baseball weighs 5.13 oz. what is the kinetic energy in j of this baseball when it is thrown by a major-league pitcher at 95.0 mph

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The kinetic energy of the baseball when thrown by a major-league pitcher at 95.0 mph is approximately 136.22 Joules.

The kinetic energy (KE) of an object can be calculated using the formula KE = 0.5 * m * v^2, where m is the mass in kilograms, and v is the velocity in meters per second.

First, we need to convert the mass from ounces to kilograms and the velocity from miles per hour to meters per second.

1 oz = 0.0283495 kg

5.13 oz * 0.0283495 = 0.14515 kg

1 mph = 0.44704 m/s

95.0 mph * 0.44704 = 42.4698 m/s

Now, we can calculate the kinetic energy:

KE = 0.5 * 0.14515 kg * (42.4698 m/s)^2

KE ≈ 136.22 Joules

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the magnetic field at the center of a 0.700-cm-diameter loop is 3.00 mt . part a what is the current in the loop? express your answer with the appropriate units.

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The magnetic field at the center of a current-carrying loop is given by the formula: B = (μ₀/4π) * (2I/ r)

where B is the magnetic field at the center of the loop, I is the current in the loop, r is the radius of the loop, and μ₀ is the permeability of free space. In this case, we are given the magnetic field B = 3.00 mT = 3.00 × 10^(-3)  T and the radius r = 0.700 cm = 0.00700 m.Substituting these values into the above formula, we can solve for the current I: I = (B * r * 4π)/ (2 * μ₀)

I = (3.00 × 10^(-3) T * 0.00700 m * 4π)/ (2 * 4π × 10^(-7) T·m/A)

I = 0.0133 A

Therefore, the current in the loop is 0.0133 A (amperes).

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Two identical thin rectangular sheets have dimensions 0.30 m × 0.50 m. They are both set to rotation by the same torque, but the first one rotates about an axis which lies on its 0.30 m side, while the second one rotates about an axis which lies on its 0.50 m side (Fig. 1). The first sheet reaches its final angular velocity in 8.0 s, starting from rest. How long will it take the second sheet to reach the same angular velocity, also starting from rest.

Answers

Therefore, it will take the second sheet approximately 4.63 s to reach the same angular velocity.

What is the starting velocity and final velocity formula?

With a few calculations and some fundamental conceptual understanding, one can easily determine the ultimate velocity. By dividing the amount of time it took the object to move a certain distance by the overall distance, one can calculate the object's initial velocity.

For a thin rectangular sheet rotating about a plane perpendicular to one of its edges, the moment of inertia is given by:

[tex]I = (1/12)M(L^2 + W^2)[/tex]

Since both sheets have the same torque causing them to rotate, the torque is the same for both sheets. The first sheet's moment of inertia is:

[tex]I1 = (1/12)M(0.3^2 + 0.5^2) = 0.0125M[/tex]

The angular acceleration for the first sheet is:

α1 = τ/I1

ω1 = α1t1

Solving for α1, we get:

α1 = ω1/t1

Substituting this into the equation for angular acceleration and solving for ω1, we get:

ω1 = (τ/I1)t1

Similarly, for the second sheet, the moment of inertia is:

[tex]I2 = (1/12)M(0.5^2 + 0.3^2) = 0.0125M[/tex]

The angular acceleration for the second sheet is:

α2 = τ/I2

ω2 = α2t2

Substituting in the equation for angular acceleration and solving for t2, we get:

t2 = ω2/α2

To find ω2, we can use the fact that the torque is the same for both sheets:

τ = I1α1 = I2α2

Substituting in the expressions for I1, I2, α1, and α2, we get:

[tex]τ = (1/12)M(0.3^2 + 0.5^2)(ω1/t1) = (1/12)M(0.5^2 + 0.3^2)(ω2/t2)[/tex]

Canceling out the mass and torque, and solving for ω2, we get:

[tex]ω2 = (0.3^2 + 0.5^2)/(0.5^2 + 0.3^2)(ω1)t1[/tex]

Substituting this into the equation for t2, we get:

[tex]t2 = (0.5^2 + 0.3^2)/(0.3^2 + 0.5^2)(t1)[/tex]

Plugging in the values for t1 (8.0 s), we get:

[tex]t2 = (0.5^2 + 0.3^2)/(0.3^2 + 0.5^2)(8.0 s)[/tex]

≈ 4.63 s

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in the circuit shown below, all the capacitors are air-filled. with the switch s open. the 40 uf capactior has an intial charge of 5 uc while the other three capactiors are uncharged. the switch is then closed and left closed for a long time. calculate the inital and final values of the total electrical energy stored in these capactiors

Answers

Thus, the initial and final values of electrical energy  stored in the capacitors are 0.3125J and 0.3124J.

given,

the initial charge of the given capacitor is Qo = 5.00C

The capacitance  of the given capacitor is Co = 40.0F

therefore,

capacitors 10μF and 15μF are connected in a series format.

then equivalent capacitance is

[tex]\frac{1}{c}[/tex] = 1/10μf + 1/15μF

=> 3μF + 2μF/ 30μF

C = 6μF

therefore,

the equivalent capacitor is in parallel combination concerning capacitor 14μF.

Equivalent capacitance = C' = 14μF + 6μF

C' = 20μF × 10⁻⁶ F/1μF

C' = 20 × 10⁻⁶ F

then, the obtained equivalent capacitance is in parallel formation with the unlabeled capacitor.

C" = (20 ×10⁻⁶ F)² +40.0 F

C" = 40.0002 F

hence, the initial energy stored in the capacitor is

Ui = [tex]\frac{qo^{2} }{2Co}[/tex]

Ui = (5.00C)²/ 2× (40.0F)

Ui = 0.3125 J

the final energy in the capacitor is

Uf = [tex]\frac{q^{2} }{2C"}[/tex]

Uf = (5.00 C )²/ 2 × (40.00002 F)

Uf = 0.3124 J

Thus, the initial and final values of electrical energy  stored in the capacitors are 0.3125J and 0.3124J.

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a person's near point is 25 cm, and her eye lens is 2.7 cm away from the retina. what must be the focal length of this lens for an object at the near point of the eye to focus on the retina?

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The focal length of the lens must be 62.5 cm for an object at the near point of the eye to focus on the retina.

The near point of the eye is the closest distance at which the eye can focus on an object. Let's call this distance "p". The distance between the lens and the retina is called the "ocular distance" and is denoted by "d". According to the thin lens equation, the focal length "f" of the lens is related to the object distance "p" and the image distance "q" by the equation,

1/f = 1/p + 1/q

Since the object is at the near point of 25 cm, we can set p = 25 cm. The image distance q is the distance between the lens and the retina, which is d = 2.7 cm. Solving for f,

1/f = 1/p + 1/q

1/f = 1/25 + 1/2.7

1/f = 0.04

f = 25 cm/0.04

f = 62.5 cm

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when an object 1.15 cm tall is placed 12 cm from a lens, the lens produces an upright image of the object that is 5.75 cm tall. what is the focal length of the lens? question 6 options: 24 cm 18 cm 60 cm 15 cm 9.0 cm

Answers

The focal length of the lens is 15 cm. The correct option is C).

Using the thin lens equation

1/f = 1/d_o + 1/d_i

where f is the focal length of the lens, d_o is the object distance, and d_i is the image distance.

We are given that the object height, h_o, is 1.15 cm, the image height, h_i, is 5.75 cm, and the object distance, d_o, is 12 cm. Since the image is upright, the magnification, M, is positive:

M = h_i / h_o = 5.75 / 1.15 = 5

We can use the magnification equation to find the image distance

M = - d_i / d_o

d_i = - M * d_o = -5 * 12 cm = -60 cm

The negative sign indicates that the image is virtual, which means it is on the same side of the lens as the object.

Now we can use the thin lens equation to solve for the focal length:

1/f = 1/d_o + 1/d_i = 1/12 cm - 1/60 cm = 1/15 cm

f = 15 cm

Therefore, the focal length is 15 cm. The correct Answer is option C).

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it has been suggested that rotating cylinders about 20.0 mi long and 3.71 mi in diameter be placed in space and used as colonies. what angular speed must such a cylinder have so that the centripetal acceleration at its surface equals the free-fall acceleration on earth?

Answers

The cylinder would need to rotate at an angular speed of 1.44 x 10^-3 rad/s

To calculate the required angular speed of cylinder, we can use the following formula:

a_c = v^2 / r

where a_c is  centripetal acceleration, v is  linear speed, and r is the radius of the cylinder.

First, we can determine the free-fall acceleration on Earth, which is approximately 9.81 m/s^2.

20.0 miles = 32,186.88 meters, and 3.71 miles = 5,972.64 meters.

a = ω^2r,

Setting  centripetal acceleration equal to  free-fall acceleration, we have: [tex]9.81 m/s^2 = \omega^{2}(2,986.32 m)[/tex]

ω = [tex]1.44 * 10^{-3} rad/s[/tex]

Therefore, the cylinder would need to rotate at angular speed of 1.44 x 10^-3 rad/s to have the same centripetal acceleration at its surface as the free-fall acceleration on Earth.

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,
The value of the electric field at a distance
of 60.7 m from a point charge is 61.9 N/C and
is directed radially in toward the charge.
What is the charge? The Coulomb constant
is 8.98755 × 10^9 N · m^2/C^2
.
Answer in units of C.

Answers

Answer:

Approximately [tex](-2.54) \times 10^{-5}\; {\rm C}[/tex].

Explanation:

The magnitude of the electric field around a point charge can be found with the equation:

[tex]\begin{aligned} E &= \frac{k\,q}{r^{2}}\end{aligned}[/tex], where:

[tex]E[/tex] is the magnitude of the electric field,[tex]k = 8.98755 \times 10^{9}\; {\rm N\cdot m^{-2}\cdot C^{-2}}[/tex] is the Coulomb constant, [tex]q[/tex] is the magnitude of the point charge, and[tex]r = 60.7\; {\rm m}[/tex] is the distance from the point charge.

Rearrange this equation and solve for the magnitude [tex]q[/tex] of this point charge:

[tex]\begin{aligned}q &= \frac{r^{2}\, E}{k} \\ &= \frac{(60.7)^{2}\, (61.9)}{8.98755}\; {\rm C} \\ &\approx 2.54\times 10^{-5}\; {\rm C}\end{aligned}[/tex].

Note that the sign of electric charges can be either positive or negative. The direction of field lines around this point charge provides info on the sign of this electric charge.

By convention, the direction of electric field lines at a particular position is the same as the direction of the force on a positive electric test charge at that location. Since the electric field around this point charge points towards the charge, it means a positive charge would be attracted to this point charge.

Charges of opposite signs attract each other. For the point charge in this question to attract a positive test charge, it must be true that this point charge has a negative sign. Hence, this point charge would be [tex](-2.54) \times 10^{-5}\; {\rm C}[/tex].

an oscillating system consists of a block attached to a horizontal spring that slides on a frictionless surface. at which time(s) do(es) the system described by the above graph of the block's position versus time have the most elastic potential energy? select any/all correct answers.

Answers

The system described by the above graph of the block's position versus time has the most elastic potential energy at times t = T/2. Option C is correct.

The elastic potential energy of a spring-block system is given by the equation PE = (1/2)kx², where k is the spring constant and x is the displacement of the block from its equilibrium position. Since the displacement of the block is at a maximum when it passes through its equilibrium position, the potential energy is also at a maximum at this point.

In the graph provided, the block passes through its equilibrium position twice per period of oscillation T, which corresponds to times t = T/2. At these times, the block has its maximum displacement from the equilibrium position, and therefore the most elastic potential energy. t-T, is also not correct as it is outside the range of one period of oscillation. t=T/4, is also not correct as it corresponds to a point of zero displacement and therefore zero potential energy. Option C is correct.

The complete question is

An oscillating system consists of a block attached to a horizontal spring that slides on a frictionless surface. at which time(s) do(es) the system described by the above graph of the block's position versus time have the most elastic potential energy? Select any/all correct answers.

A. t = 3T/4

B. t-T

C. t=T/2

D. t=T/4

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When an unknown weight W was suspended from a spring with an unknown force constant & it reached its equilibrium position and the spring was stretched by 31.9 cm because of the weight W.
Then the weight W was pulled further down to a position 87 cm (55.1 em below its equilibrium position) and released, which caused an oscillation in the spring.

Answers

Using the principle of conservation of energy, we can calculate the force constant of a spring and the period of oscillation of a weight attached to the spring. However, to solve for the mass of the weight, we need more information about its oscillation.

When the weight W is suspended from the spring and reaches its equilibrium position, the potential energy stored in the spring is equal to the gravitational potential energy of the weight W:

[tex]1/2 k x^2[/tex]= m g h

where k is the force constant of the spring, x is the displacement of the spring from its equilibrium position (31.9 cm in this case), m is the mass of the weight W, g is the acceleration due to gravity, and h is the height of the weight W above the ground (which we can assume is zero).

We can solve for the force constant of the spring:

k = (2 m g h) / [tex]x^2[/tex]

Next, we can find the period of oscillation of the spring when the weight W is pulled down to a position 55.1 cm below its equilibrium position. The period of oscillation is given by:

T = 2π √(m / k)

where m is the mass of the weight W and k is the force constant of the spring that we just calculated.

Finally, we can use the period of oscillation to find the frequency of oscillation:

f = 1 / T

We now have expressions for the force constant of the spring, the period of oscillation, and the frequency of oscillation, all in terms of the mass of the weight W, which is unknown.

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how much work must you do to push a 12 kg k g block of steel across a steel table at a steady speed of 1.3 m/s m / s for 6.1 s s ? the coefficient of kinetic friction for steel on steel is 0.60.

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To determine the work necessary to drive a 12 kilogram block of steel over a steel table at a constant speed of 1.3 m/s for 6.1 seconds, we must take into account the force required to overcome friction.

Steel against steel has a coefficient of kinetic friction of 0.60.Then, we must compute the force of friction opposing the block's motion. F friction = coefficient of friction x F normal, where F normal is the normal force applied by the table to the block. We know that the net force applied on the block is zero since it is travelling at a constant pace. As a result, the force of friction must be equal to the force we are exerting.to move the block ahead. Applying the aforementioned equation, we can calculate the friction force to be 70.56 N. As a result, the effort required to push the block for 6.1 seconds is equal to the friction force multiplied by the distance the block moves during that time, which is given by distance = speed x time = 1.3 m/s x 6.1 seconds = 7.93 m. Hence, W = force x distance = 70.56 N x 7.93 m = 560.3 J is the labor necessary to push the block (Joules).

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A 2.2 kg, 20-cm-diameter turntable rotates at 100 rpm on frictionless bearings. Two 200g blocks fall from above, hit the turntable simultaneously at opposite ends of a diagonal, and stick.

a) What is the turntable's angular velocity, in
rpm , just after this event?

Answers

Immediately following the blocks' impact, the turntable's angular velocity was around 90.2 rpm.

How quickly does the turntable spin up following this incident, measured in revolutions per minute?

We can start out by applying the conservation of angular momentum. The turntable is rotating at an angle of: before the blocks start to fall.

One revolution per minute equals one revolution per hundred rpm, which is equal to 10.47 rad/s.

The equation for the moment of inertia of a solid disc can be used to calculate the moment of inertia of the turntable:

[tex]I = (1/2) m r^2[/tex]

where r is the turntable's radius and m is its mass. By entering the specified values, we obtain:

I is equal to (1/2) (2.2 kg) (0.1 m)2 = 0.011 kg m2.

The blocks stay to the turntable as they strike it, increasing the system's moment of inertia. By combining the inertial moments of the blocks and the turntable, we can determine the new moment of inertia:

[tex]I' = I + 2m(a/2)^2[/tex]

where m is the combined mass of the two blocks (0.2 kg each), an is the turntable's diameter (0.2 m), and the factor 2 takes into consideration the two blocks. When we enter the values, we obtain:

I' = 0.011 kg m2 plus 2 (0.2 kg)(0.1 m)2 = 0.012 kg m2.

where r is the turntable's radius and m is its mass. By entering the specified values, we obtain:

According to the conservation of angular momentum principle, the system's angular momentum is preserved both before and after the blocks strike the turntable. This can be said as follows:

Iω1 = I'ω'

where'is the system's angular velocity immediately following the blocks' impact with the turntable. When we solve for ', we get:

I' = (I1)/I' = (0.011 kg m2)(10.47 rad/s)/(0.012 kg m2)(9.47 rad/s)

This is converted to rpm and we get:

' = 9.47 rad/s times 60 seconds per minute divided by 2 radians per rotation equals 90.2 rpm.

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if a block of wood with a weight of 18 newtons rests on a table top. how much pressure is the block of wood exerting on the surface of the table directly beneath it if the block is 3 cm and 2 cm wide?

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the block of wood is exerting a pressure of 300 N/m² on the surface of the table directly beneath it.

The amount of pressure a block of wood exerts on the surface of the table directly beneath it can be calculated using the formula; Pressure = Force/Area, where Force is the weight of the block in Newtons, and the area is the product of the length and width of the block in meters or converted to meters. Weight of the block of wood = 18 newtonsArea of the base of the block = length x width= 3 cm x 2 cm = 6 cm² = 0.06 m²Now, Pressure = Force/Area= 18 N/0.06 m²= 300 N/m²Therefore, the block of wood is exerting a pressure of 300 N/m² on the surface of the table directly beneath it.
To calculate the pressure exerted by the block of wood on the table surface, we need to find the area of the surface in contact and then divide the weight by that area.
The area of the surface can be calculated as length x width, which is 3 cm x 2 cm = 6 cm². Since we need the area in square meters, we convert it: 6 cm² * (0.01 m/cm)² = 0.0006 m².
Now, we can find the pressure by dividing the weight by the area: pressure = weight/area = 18 newtons / 0.0006 m² = 30,000 Pa (Pascals).

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The area ratio of hydraulic press pistons is 1:300. A force of 15 N acts on the small piston. What force acts on the big piston?​

Answers

The Force acts on the big piston is 1350000 N

"The force exerted on each piston of a hydraulic press is proportional to the surface area of the piston. If the area ratio of the two pistons is 1:300, this means that the larger piston has an area 300 times greater than the smaller piston.

Let A1 be the area of the smaller piston and A2 be the area of the larger piston. Then, we have:

A2 = 300 * A1

According to Pascal's law, the pressure in a closed system is transmitted equally throughout the system. Therefore, the pressure on both pistons is the same. Let P be the pressure on each piston.

The force on each piston can be calculated using the formula:

force = pressure * area

For the smaller piston, we have:

force1 = P * A1

For the larger piston, we have:

force2 = P * A2

Substituting A2 = 300 * A1, we get:

force2 = P * 300 * A1

We know that a force of 15 N acts on the smaller piston (force1 = 15 N). We can now set up an equation to solve for the force on the larger piston (force2):

force1 = force2

P * A1 = P * 300 * A1

Simplifying the equation, we get:

P = P * 300

Dividing both sides by P, we get:

300 = A1 / A2

Substituting A2 = 300 * A1, we get:

300 = A1 / (300 * A1)

Multiplying both sides by 300 * A1, we get:

90000 * A1 = A1

Dividing both sides by A1, we get:

A2 = 90000

Therefore, the area of the larger piston is 90000 times greater than the area of the smaller piston. Now we can use the formula for force:

force2 = P * A2

We know that the force on the smaller piston is 15 N, and the area ratio is 1:300. Therefore, the force on the larger piston can be calculated as follows:

force2 = P * A2

force2 = P * 90000 * A1

force2 = 15 N * 90000

force2 = 1,350,000N

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describe the difference, if any, in the net work done on each sample of gas as it is taken through the cycles shown above. explain how the location of the states on the graphs and the direction of the processes in each cycle can be used to arrive at your answer.

Answers

The difference in the net work done on each sample of gas, analyze the location of the states on the graphs, the direction of the processes in each cycle, and the area enclosed by the cycles.

This information will help you compare and arrive at your answer.

The difference in the net work done on each sample of gas in the cycles can be found by examining the location of the states on the graphs and the direction of the processes in each cycle.
Step 1: Identify the cycles on the graphs.
First, recognize the different cycles shown in the graphs. Typically, there are isobaric (constant pressure), isochoric (constant volume), and isothermal (constant temperature) processes involved in these cycles.
Step 2: Analyze the direction of the processes.
Next, look at the direction of the processes in each cycle. Clockwise cycles generally represent positive work done on the gas, while counterclockwise cycles represent negative work done on the gas (or work done by the gas).
Step 3: Calculate the area enclosed by each cycle.
The net work done on the gas in a cycle is equal to the area enclosed by the cycle on the graph. A larger area enclosed would mean more work done, while a smaller area means less work done.
Step 4: Compare the net work done in each cycle.
Now that you have analyzed the area enclosed by each cycle and the direction of the processes, you can compare the net work done on the gas in each cycle. If the cycles have similar areas and the same direction, the net work done in each cycle would be similar. If the areas are different or the cycles have opposite directions, the net work done would be different.

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a capacitor is constructed of two identical conducting plates parallel to each other and separated by a distance d. the capacitor is charged to a potential difference of v0 by a battery, which is then disconnected. a sheet of insulating plastic material is inserted between the plates without otherwise disturbing the system. what effect does this have on the capacitance?

Answers

"A capacitor is constructed of two identical conducting plates parallel to each other and separated by a distance d. The capacitor is charged to a potential difference of v₀ by a battery, which is then disconnected. a sheet of insulating plastic material is inserted between the plates without otherwise disturbing the system. It causes the capacitance to increase."

A device for holding separated charge is a capacitor.

Until the voltage created by the charge buildup is equivalent to the battery voltage, a battery will transfer charge from one plate to the other.

If the battery is disconnected, Q remains constant. The capacitance rises if a dielectric is placed in between the plates.

This can be said because of the equation, Q = C V

where, Q is charge in coulombs

V is voltage

C is capacitance

Thus, the capacitance increases.

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if frictional forces do -11.0 kj of work on her as she descends, how fast is she going at the bottom of the slope?

Answers

we can't solve for the final velocity of the skier at the bottom of the slope.

When answering questions on Brainly, a question-answering bot should always be factually accurate, professional, and friendly. In addition, it should be concise and not provide extraneous amounts of detail.

Any typos or irrelevant parts of the question should be ignored. Below is the answer to the given question:If frictional forces do -11.0 kJ of work on her as she descends, how fast is she going at the bottom of the slope?The conservation of energy principle can be used to solve this problem.

As a skier descends a slope, her potential energy (PE) is converted to kinetic energy (KE) and work done by non-conservative forces such as friction.Conservative forces are forces that do not dissipate the mechanical energy of a system.

The conservation of energy principle states that the total mechanical energy of a system is constant when only conservative forces act on it. The total mechanical energy is the sum of kinetic and potential energies.Under the assumption that the potential energy at the top of the slope is zero,

the initial total mechanical energy is KE_0 = 1/2 mv_0^2where m is the skier's mass and v_0 is her initial velocity. The final mechanical energy is KE_f = 1/2 mv_f^2, where v_f is the skier's velocity at the bottom of the slope.

If the frictional force does work W_friction = -11.0 kJ, the change in mechanical energy isΔKE = KE_f - KE_0 = W_frictionThe work done by friction is negative because it dissipates mechanical energy.

Solving for the final velocity of the skier givesv_f = sqrt(2ΔKE/m + v_0^2) = sqrt(2W_friction/m + v_0^2)We have all the values except for m, the mass of the skier.

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what is the effective resistance of a car's starter motor when 144 a flows through it as the car battery applies 10.5 v to the motor?

Answers

The effective resistance  of a car's starter motor is: Resistance = 0.0729 Ω

Using Ohm's law, we can find the effective resistance of the car's starter motor. Ohm's law states that resistance is equal to voltage divided by current.

[tex]Resistance = Voltage / Current\\Resistance = 10.5 V / 144 A\\Resistance = 0.0729\ ohm[/tex]

Therefore, the effective resistance of the car's starter motor is 0.0729 Ω. This means that the starter motor will draw a large amount of current from the battery when it is running, but only a small voltage is required to keep the current flowing through the motor. The low resistance of the starter motor allows it to draw a large amount of power from the battery, which is necessary to turn the engine over and start the car.

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Two thin circular dics of mass m and 4m, having radii of a and 2a, respectively, are rigidly fixed by a massless, rigid rod of length = √24 a through their centers. This assembly is laid on a firm and flat surface, and set rolling without slipping on the surface so that the angular speed about the axis of the rod is co. the angular momentum of the entire assembly about the point 'O' is L (see the figure). Which of the following statement (s) is (are) true?​

Answers

Answer:

I will say the first one

Explanation:

From the figure, we can see that the assembly consists of two circular discs of different masses and radii, which are rigidly fixed to a massless, rigid rod of length √24 a through their centers. The assembly is set rolling without slipping on a flat surface, and the angular speed about the axis of the rod is co. The angular momentum of the entire assembly about the point 'O' is L.

We can use the conservation of angular momentum to answer the question. Since there is no external torque acting on the system, the angular momentum of the system about point 'O' is conserved. Therefore, the initial angular momentum of the system must be equal to the final angular momentum of the system.

The initial angular momentum of the system can be calculated as follows:

Li = I1 * w1 + I2 * w2

Where:

I1 = moment of inertia of the smaller disc about its center = (1/2) * m * a^2

w1 = angular speed of the smaller disc about its center = co

I2 = moment of inertia of the larger disc about its center = (1/2) * 4m * (2a)^2 = 8ma^2

w2 = angular speed of the larger disc about its center = 0 (since the larger disc is not rotating about its center)

Therefore, the initial angular momentum of the system is:

Li = (1/2) * m * a^2 * co + 8ma^2 * 0

Li = (1/2) * m * a^2 * co

The final angular momentum of the system can be calculated as follows:

Lf = I * wf

Where:

I = moment of inertia of the entire assembly about point 'O' = (1/2) * m * a^2 + (4/3) * m * (2a)^2 = (22/3) * ma^2

wf = final angular speed of the entire assembly about point 'O'

Therefore, the final angular momentum of the system is:

Lf = (22/3) * ma^2 * wf

Since the initial angular momentum must be equal to the final angular momentum, we can equate Li and Lf and solve for wf:

(1/2) * m * a^2 * co = (22/3) * ma^2 * wf

wf = (3/44) * co

Therefore, the final angular speed of the entire assembly about point 'O' is (3/44) times the initial angular speed about the axis of the rod.

From the given options, we can see that statement (i) is true, which states that the final angular speed of the entire assembly is less than the initial angular speed about the axis of the rod. Statement (ii) is false, since the final kinetic energy of the entire assembly is less than the initial kinetic energy about the axis of the rod, due to the work done against friction. Therefore, the correct answer is (i) only.

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