An elastic cord that is 4.21 m long has a mass of 0.0204 kg. What tension must be applied to the cord to make the wavelength of a 112 Hz wave 1.135 m?

Answers

Answer 1

77.4 N of tension must be applied to the rope in order to create a 112 Hz wave's wavelength 1.135 m.

What is the meaning of wavelength?

The distance that separates the crests and troughs of the light wave is known as the wavelength of light. With the Greek letter lambda (λ), it is identified. As a result, wavelength refers to the separation between one wave's peak or dip and the following wave.

The wave equation may be used to connect the cord's tension to the wave's wavelength and frequency:

v = fλ

where,

v denotes the wave's speed

The frequency is f, and

The wavelength is  λ

The elastic cord's elastic wave's velocity is provided by:

v = √(T/μ)

where,

T is the cord's tension, and

μ is the cord's linear mass density,

This is the mass per unit length:

μ = m/L

where m is the cord's mass and

Its length is L.

When we solve for the tension T using these formulas in the wave equation, we obtain:

T = μv² = μ(fλ)²

Inputting the values provided yields:

μ = m/L = 0.0204 kg / 4.21 m = 0.00484 kg/m

v = √(T/μ) --> v² = T/μ

λ = v/f --> v = λ*f

T = μv² = μ(fλ)²

= (0.00484 kg/m)*(1.135 m * 112 Hz)²

= 77.4 N

Hence, 77.4 N of tension must be applied to the rope in order to create a 112 Hz wave's wavelength 1.135 m.

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Related Questions

A highway is to be built between two towns, one of which lies 32. 0km south and 72. 0km west of the other. What is the shortest length of highway that can be built between the two towns, and at which angle would this highway be directed with respect to due west

Answers

The highway would be directed at an angle of 23.3 degrees with respect to due west.

To find the shortest length of highway between the two towns, we need to use the Pythagorean theorem. Let's draw a diagram:

  A

 /|

/ |

/  |

  |

  |   x

  |  /

  | /

  |/

  B

A represents the town that is 32.0 km south and 72.0 km west of town B. We can see that the distance between the two towns, x, is the hypotenuse of a right triangle with sides of length 32.0 km and 72.0 km.

Using the Pythagorean theorem, we can find x:

x = sqrt((32.0 km)^2 + (72.0 km)^2)

= 78.0 km

So the shortest length of highway that can be built between the two towns is 78.0 km.

Now, let's find the angle that this highway would be directed with respect to due west. We can use trigonometry for this. The angle we're looking for is the angle between the line connecting the two towns and due west.

  A

 /|

/ |

/  |  θ

  |

  |   x

  |  /

  | /

  |/

  B

We can see that tan(θ) = (32.0 km) / (72.0 km) = 0.444. Taking the inverse tangent of both sides, we get:

θ = [tex]tan^{-1}(0.444)[/tex]

= 23.3 degrees

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is the impulse delivered to the superball during its collision with the scale greater than, less than, or equal to the impulse delivered to the clay during its collision with the scale?
The impulse delivered to superball is greater than the impulse delivered to the clay.
The impulse delivered to superball is equal to the impulse delivered to the clay.
The impulse delivered to superball is less than the impulse delivered to the clay.

Answers

The impulse delivered to the superball is greater than the impulse delivered to the clay.

Impulse refers to the change in momentum of an object when a force is applied to it over a certain period of time. Impulse (J) is given by the equation:

J = F × Δt

J = Δp

Where: J is the impulse,

F is the force applied to the object, and

Δt is the time interval over which the force acts.

Δp is the change in momentum

So, the change in momentum for the clay takes a larger time than for the superball. Thus for the same force, a larger impulse has to be imparted to superball than clay.

Therefore, the impulse delivered to the superball is greater than the impulse delivered to the clay.

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pls explain these question with answers i’m confused

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The radio waves that WPL emits have a wavelength of roughly 3.14 metres.

What wavelength does a radio station whose signal is broadcast at 94.1 MHz have?

An FM radio wave's frequency and wave size must be known in order to determine its wavelength. An FM radio wave has a frequency of 94.1 MHz. FM radio waves are measured in metres. An FM radio wave therefore has a wavelength of [tex]94.1*106[/tex] metres.

c = fλ

where [tex]c = 3.00 x 10^8 m/s[/tex] (speed of light in a vacuum).

We need to convert the frequency from MHz to Hz:

[tex]95.5 MHz = 95.5 x 10^6 Hz[/tex]

Now we can solve for the wavelength:

c = fλ

λ = c/f

[tex]λ = (3.00 x 10^8 m/s) / (95.5 x 10^6 Hz)[/tex]

λ = 3.14 m

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Simple harmonic motion comparison problem. If you substitute the expressions forSimple harmonicmotion comparison problem. If you1andSimple harmonicmotion comparison problem. If you2into Equation 9.1 and use the trigonometric identities cos(a+b) = cos(a)cos(b) - sin(a)sin(b) and cos(a-b) = cos(a)cos(b) + sin(a)sin(b), you can derive Equation 9.4.Simple harmonicmotion comparison problem. If youMake sure you understand this derivation.How does equation 9.4 differ from the equation of a simple harmonic oscillator?A.The oscillatory behavior is a function of ? instead of the period, T.B.The amplitude,Amod, is twice the amplitude of the simple harmonic oscillator, A.C.The amplitude is time dependentD.It does not differ from a simple harmonic oscillator.

Answers

The oscillatory behavior is a function of Φ (phi) instead of the period, T. Option A is correct answer.

Equation 9.4 describes the motion of a simple harmonic oscillator subjected to a periodic driving force. The term ? in the equation represents the frequency of the driving force, while in a simple harmonic oscillator, the oscillatory behavior is described by the period T. Therefore, the oscillatory behavior in Equation 9.4 is a function of frequency rather than the period. The amplitude Amod in Equation 9.4 is not twice the amplitude of a simple harmonic oscillator, nor is it time-dependent. Therefore, options B and C are incorrect. Option D is also incorrect since Equation 9.4 is different from the equation of a simple harmonic oscillator due to the presence of the driving force.

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A horse can produce 60,000 W of power when he pulls a wagon. The horse pulls with
20,000 N of force for a time of 80 s. What is the distance traveled by the horse.

Answers

Answer:

The horse traveled 240 meters

Explanation:

In this example we are given power, the applied/resultant force, and time.

We can use the following equations to evaluate the distance.

[tex]\boxed{\sf Work=Power\cdot Time}[/tex]

[tex]\boxed{\sf Work=Force\cdot Distance}[/tex]

We can set them equal to each other.

[tex]\sf Force \cdot Distance=Power\cdot Time[/tex]

We can isolate Distance by dividing both sides of the equation by Force.

[tex]\sf Distance=\dfrac{Power\cdot Time}{Force}[/tex]

Now we have an equation to evaluate the distance.

Numerical Evaluation

In this example we are given

[tex]\sf Power=60000 \\Time=80\\Force=20000[/tex]

Substituting our values into our equation for Distance yields

[tex]\sf Distance=\dfrac{60000\cdot 80}{20000}[/tex]

[tex]\sf Distance=\dfrac{4800000}{20000}[/tex]

[tex]\sf Distance=240[/tex]

Lets figure out what unit we end up with.

When you multiply watts by seconds, you get the unit of energy, which is joules (J). When you divide joules by newtons, you get the unit of distance, which is meters (m).

In which one of the following systems is there a decrease in gravitational potential
energy?
A) a boy stretches a horizontal spring
B) a girl jumps down from a bed
C) a crate rests at the bottom of an inclined plane
D) a car ascends a steep hill
E) water is forced upward through a pipe

Answers

The option which represents a decrease in gravitational potential energy is B, where a girl jumps down from a bed.

Gravitational potential energy (GPE) is the energy a body has due to its position in a gravitational field. The higher an object is lifted, the greater its gravitational potential energy. The energy needed to lift an object comes from work done on it, which increases its potential energy by a comparable amount.

When the girl is on the bed, she is at a higher height than when she jumps down. Her height decreases from the bed, therefore the GPE will decrease. Thus, in the system where a girl jumps down from a bed, there is a decrease in gravitational potential energy.

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a 50 g ball of clay is thrown at 10 m/s tangent to the edge of a 2.0 kg, 30 cm diameter disk that can turn on a frictionless axle. the clay hits the edge of the disk and sticks. if the disk was initially at rest, what is the angular velocity in rpm, after the collision?

Answers

The final angular velocity of the disk-clay system after the collision is approximately 1.67 rpm.

To find the angular velocity in rpm after the collision, we can use the principle of conservation of angular momentum.

Since the disk is initially at rest, the initial angular momentum is zero. After the clay sticks to the edge of the disk, the system will be a combination of the clay and the disk, which will rotate together with some final angular velocity.

The angular momentum of the system is given by the formula:

L = Iω

where L is the angular momentum, I is the moment of inertia, and ω is the angular velocity.

Since the system is rotating about an axis perpendicular to the disk, the moment of inertia of the system can be calculated as:

[tex]I = I_{disk} + I_{clay}[/tex]

where I_disk is the moment of inertia of the disk and I_clay is the moment of inertia of the clay. The moment of inertia of a solid disk rotating about an axis through its center is given by:

[tex]I_{disk} = (\frac{1}{2} )MR^2[/tex]

where M is the mass of the disk and R is the radius of the disk. Substituting the given values, we get:

[tex]I_{disk }= (\frac{1}{2} )(2.0 kg)(0.15 m)^2 = 0.0225 kg m^2[/tex]

The moment of inertia of the clay can be approximated as that of a solid sphere rotating about an axis through its center, given by:

[tex]I_{clay} = (\frac{2}{5} )MR^2[/tex]

where M is the mass of the clay and R is its radius. Substituting the given values, we get:

[tex]I_{clay} = (\frac{2}{5} )(0.050 kg)(0.05 m)^2 = 0.000125 kg m^2[/tex]

Therefore, the total moment of inertia of the system is:

[tex]I = I_{disk} + I_{clay} = 0.0225 kgm^2 + 0.000125 kgm^2 = 0.022625 kgm^2[/tex]

The final angular momentum of the system is:

L = Iω

where ω is the final angular velocity of the system. Before the collision, the clay is moving tangent to the disk, so its velocity is perpendicular to the line joining its center and the centre of the disk.

Therefore, the angular momentum of the clay is zero. After the collision, the clay sticks to the edge of the disk, which acquires the angular momentum of the clay. Therefore, the angular momentum of the system after the collision is:

[tex]L = I\omega = (0.000125 kgm^2)(10 m/s) = 0.00125 kgm^2/s[/tex]

Setting the initial and final angular momenta equal, we can solve for the final angular velocity:

L_initial = L_final

[tex]0 = (0.022625 kg m^2) \times 0 + (0.000125 kgm^2 + 0.0225 kgm^2) \times \omega[/tex]

Solving for ω, we get:

ω = 0.00556 rad/s

Finally, we can convert the angular velocity to rpm:

[tex]\omega_{rpm} = \frac{\omega \times 60}{2\pi} = \frac{0.00556 rad/s \times 60}{2\pi} \approx 1.67 rpm[/tex]

The angular velocity in rpm, after the collision is 1.67 rpm.

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a 1.3-kg block is attached to the end of a 1.7-m string to form a pendulum. the pendulum is released from rest when the string is horizontal. at the lowest point of its swing when it is moving horizontally, the block is hit by a 0.01-kg bullet moving horizontally in the opposite direction. the bullet remains in the block and causes the block to come to rest at the low point of its swing. what was the magnitude of the bullet's velocity just before hitting the block?

Answers

Given Information:

[tex]m_{1}=1.3 \ kg[/tex] (Mass of the block attached to the pendulum)

[tex]l=1.7 \ m[/tex] (Length of the string)

[tex]m_{b}=0.01 \ kg[/tex] (Mass of the bullet)

Information we want to Find:

[tex]||\vec v_{b} || = ?? \ m/s[/tex]

Concepts/Equations used:

Using the idea of momentum, momentum conservation, and energy conservation to solve.

Momentum => [tex]\vec p=m \vec v[/tex]

Momentum Conservation => [tex]\vec p_{0} = \vec p_{f}[/tex]

Energy Conservation => [tex]E_{0} = E_{f}[/tex]

Finding the blocks velocity at the bottom of its swing using conservation of energy. Analyzing points 1 and 2 (Refer to the attached image).

Energy at point 1...

The energy at point 1 is all gravitational potential energy, where [tex]U_{g} =m_{1} gl[/tex].

[tex]\Longrightarrow U_{g} =m_{1} gl[/tex]

[tex]\Longrightarrow U_{g} =(1.3)(9.8)(1.7)[/tex]

[tex]\Longrightarrow U_{g} =(1.3)(9.8)(1.7)[/tex]

[tex]\Longrightarrow U_{g} = 21.658 \ J[/tex]

Thus, [tex]E_{0}= 21.658 \ J[/tex].

Now for the energy at point 2...

The energy at point 1 is all kinetic, where [tex]K=\frac{1}{2}m_{1}v^{2} _{f}[/tex].

[tex]\Longrightarrow K=\frac{1}{2}m_{1}v^{2} _{f}[/tex]

[tex]\Longrightarrow K=\frac{1}{2}(1.3)v^{2} _{f}[/tex]

[tex]\Longrightarrow K=0.65v^{2} _{f}[/tex]

Thus, [tex]E_{f}=0.65v^{2} _{f}[/tex].

[tex]E_{0} = E_{f}[/tex]

[tex]\Longrightarrow 21.658 = 0.65v^{2} _{f}[/tex]

[tex]\Longrightarrow v^{2} _{f}=33.32[/tex]

[tex]\Longrightarrow v _{f}=\sqrt{33.32}[/tex]

[tex]\Longrightarrow v_{f} = 5.77 \ m/s[/tex]

The momentum of the block at point 2, [tex]\vec p =m_{1} \vec v_{f}[/tex].

[tex]\vec p_{block} =m_{1} \vec v_{f}[/tex]

[tex]\Longrightarrow \vec p_{block} =(1.3) (5.77)[/tex]

[tex]\Longrightarrow \vec p_{block} = 7.50 \ Ns[/tex]

For the block to stop the momentum of the bullet must equal the momentum of the moving block.

[tex]\vec p_{0} = \vec p_{f} = > \vec p_{bullet} = \vec p_{block}[/tex]

[tex]\Longrightarrow m_{b} \vec v_{b} = 7.5[/tex]

[tex]\Longrightarrow (0.01) \vec v_{b} = 7.5[/tex]

[tex]\Longrightarrow \vec v_{b} = 750 \ m/s[/tex]

Thus, the bullet was travelling 750m/s before hitting the block.

if a 2kg object is falling at 3 m/s at what rate is gravity working on a object

Answers

Answer:9.81 m/s2.

Explanation:

If a 2 kg object is falling at 3 m/s, at what rate is gravity working on the object ? The object is falling at 3 m/s. Gravity is working on the object at a rate of 9.81 m/s2.

a proton is released a short distance above the surface of the earth. a second proton directly below it exerts an electrostatic force on the first proton just great enough to cancel the gravitational force on it. how far below the first proton is the second?

Answers

The second proton must be 1.05 cm below the first proton to exert an electrostatic force equal in magnitude to the gravitational force between the two protons.

To find the distance between the two protons, we can set the electrostatic force equal to the gravitational force. The gravitational force on the first proton is given by Fg = mg, where m is the mass of the proton and g is the acceleration due to gravity near the surface of the Earth. The electrostatic force between the two protons is given by [tex]Fe = kq^2 / r^2[/tex], where k is Coulomb's constant, q is the charge of the proton, and r is the distance between the two protons.

Setting these two forces equal to each other, we get:

[tex]mg = kq^2 / r^2[/tex]

Solving for r, we get:

[tex]r = sqrt(kq^2 / mg)[/tex]

Substituting the values for the constants, we get:

[tex]r = sqrt((9 x 10^9 Nm^2/C^2) x (1.6 x 10^-19 C)^2 / ((1.67 x 10^-27 kg) x (9.81 m/s^2)))[/tex]

[tex]r = 2.17 x 10^-10 m[/tex]

Therefore, the second proton is located [tex]2.17 x 10^-10[/tex] meters directly below the first proton.

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a horizontal force of 20 n is required to keep a 5.0 kg box traveling at a constant speed up a frictionless incline for a vertical height change of 3.0 m. (a) what is the work done by gravity during this change in height? (b) what is the work done by the normal force? (c) what is the work done by the horizontal force?

Answers

The work done by the horizontal force is found to be 60J and the work done by the gravity and the normal force is 0J.

The horizontal force that is applied is 20N and the mass of the box is 5.0 Kg and the force moves the box with a constant speed till a distance of 3.0m.

Now, first understand the work and force relation,

W= Fs.cosA, where, W is work, F is applied force, A is the angle between force and distance s.

For (a) and (b),

The work done by the gravity and the normal force on the block will be ) J because the angle A = 90 degrees.

(c). The work done by the horizontal force is given by the above formula by putting all the values, The value of the angle A is 0 degrees and the value of cos(0) = 1.

W = (20)(3)

W = 60J

So, the work done by the horizontal force is 60J.

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a piston expands against an external pressure of 2.35 atm. if the initial volume is 0.455 l and the final volume is 1.318 l, then how much work (in joules) is done?

Answers

The work done by the piston in expanding against an external pressure of 2.35 atm is 545 J.

The work done by a piston can be calculated using the formula: work = -PΔV, where P is the external pressure, ΔV is the change in volume, and the negative sign indicates that work is done by the system (the piston) on the surroundings (the external pressure).

In this case, the external pressure is 2.35 atm, the initial volume is 0.455 L, and the final volume is 1.318 L. Therefore, the change in volume is:

ΔV = final volume - initial volume

ΔV = 1.318 L - 0.455 L

ΔV = 0.863 L

Substituting the values into the formula, we get:

work = -PΔV

work = -(2.35 atm)(0.863 L)

work = -2.025 J

Since the work done is negative, it means that the system loses energy as it expands against the external pressure. To obtain the absolute value of the work done, we take the magnitude of the negative work, giving: work = 2.025 J

Therefore, the work done by the piston in expanding against an external pressure of 2.35 atm is 545 J (rounded to three significant figures).

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carefully examine the view in the sky chart. which of the inner planets has the most eccentric orbit?

Answers

Of the four inner planets, Mercury has the most eccentric orbit, with an eccentricity of 0.21. The inner planets of our solar system - Mercury, Venus, Earth, and Mars - have nearly circular orbits around the sun.

Their eccentricities (the degree to which their orbits deviate from perfect circles) are relatively low compared to the outer planets. This means that its orbit is more elliptical  than the orbits of the other inner planets, which have eccentricities ranging from 0.0068 (Venus) to 0.0934 (Mars).

Mercury's highly eccentric orbit means that its distance from the Sun varies greatly throughout its year, which leads to extreme temperature variations on its surface. Conversely, Venus has nearly circular orbit and experiences relatively stable temperatures as a result.

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a certain force gives mass m1 an acceleration of 14.0 m/s2 and mass m2 an acceleration of 3.8 m/s2. what acceleration would the force give to an object with a mass of (m2-m1)?

Answers

The acceleration of an object with a mass of (m2-m1) is given by the force of F divided by the mass of the object, (m2-m1). This can be expressed as a = F/(m2-m1).


To solve this, first calculate the force F.

The force F acting on mass m1 is F1 = m1*a1 and the force F acting on mass m2 is F2 = m2*a2.

Since both masses are being acted upon by the same force, the equation F1 = F2 can be used.

Therefore, F = m1*a1 = m2*a2.

Now, substitute the known values for m1, m2 and a1, a2 into the equation to get F = m1*a1 = m2*a2.

F = m1*14.0 [tex]m/s^2[/tex] = m2*3.8 [tex]m/s^2[/tex].

Therefore, the acceleration of the object with a mass of (m2-m1) is given by a = F/(m2-m1). Substituting the value of F into the equation gives:

a = F/(m2-m1) = (m1*14.0 m/s2)/(m2-m1).

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a 40.0-kg child pushes a wagon 1.50 m up along a ramp. they exert 175 n of force on the wagon parallel to the ramp to keep the wagon moving at a constant speed. if the ramp makes an angle of 14.0 degrees with the horizontal, how much total work does the child do? (include both the work they do on their body and the crate!)

Answers

The total work done by the 40.0-kg child pushing the wagon 1.50 m up a ramp at an angle of 14.0 degrees with the horizontal is 106.6 J. This includes the work done both on the body and the crate.

To solve this problem, we must first calculate the work done on the body of the child. This can be done using the equation W = F×d×cos θ where F is the force exerted by the child, d is the distance the wagon is pushed, and θ is the angle of the ramp.

In this case, F = 175 N, d = 1.50 m, and θ = 14.0°. So, the work done on the body is:

W = 175 N × 1.50 m × cos 14.0°

= 67.9 J

Now, we must calculate the work done on the crate. This can be done using the equation W = F×d×sin θ, where F, d, and θ are the same values as above.

So, the work done on the crate is:

W = 175 N × 1.50 m × sin 14.0°

= 38.7 J

Adding the work done on the body and the crate, the total work done by the child is 67.9 J + 38.7 J = 106.6 J.

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what size force is needed to keep a car of mass 1000kg moving around a circular track with radius 100m when the car is traveling at a constant speed of 36.4 m/s?

Answers

The size of the force needed to keep the car of mass 1000kg moving around a circular track with radius 100m when the car is traveling at a constant speed of 36.4 m/s is 13456.16 N.

The size of the force needed to keep a car of mass 1000 kg moving around a circular track with radius 100 m when the car is traveling at a constant speed of 36.4 m/s is equal to the centripetal force. The centripetal force is the force which is directed towards the center of the circle and required to keep an object on a circular path.

Mathematically, the centripetal force (Fc) is equal to the mass of the car (m) times the square of its velocity (v2) divided by the radius (r) of the track.

Fc = mv²/r

Substituting the known values, we get:

Fc = 1000 kg * 36.42 m²/100 m = 13456.16 N

Therefore, the size of the force needed to keep the car moving in a circular track with the given conditions is 13456.16 N.

This force is an inward force, which is exerted by the track. This force keeps the car moving in a circular path and prevents it from veering off the track. It is equal to the product of the car's mass and the square of its velocity, divided by the radius of the track.

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Given what you learned from the figure, rank these types of light in order of increasing energy.
1. radio
2. infrared
3. orange
4. green
5. ultraviolet
6. gamma rays

Answers

The types of light in order of increasing energy are Radio, Infrared, Orange, Green, Ultraviolet, and Gamma rays. Radio waves have the lowest energy, followed by infrared, orange, green, and ultraviolet.

What is the sequence in which light energy increases?

The parts of the electromagnetic spectrum are referred to as gamma rays, X-rays, ultraviolet radiation, visible light, infrared radiation, and radio waves, from highest to lowest energy.

Which light is the most powerful?

Violet light has the shortest wavelength of all visible light, giving it the most energy. The longest wavelength and lowest energy are found in radio waves.

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If c1=c2=4. 00μf and c4=8. 00μf, what must the capacitance c3 be if the network is to store 2. 70×10−3 j of electrical energy?

Answers

To store 2.70x10^-3 J of electrical energy, capacitance c3 in the network must be 2.67μF. This can be calculated using the formula for energy stored in a capacitor network.

A network of capacitors is a collection of capacitors wired into a circuit. The capacitors store electrical energy as an electric field between their plates when a voltage is applied across the network. The formula E = 1/2 * C * V2 may be used to determine the total energy held in a capacitor network, where E is the energy held, C is the network's total capacitance, and V is the applied voltage. The capacitances of c1, c2, and c4 in this instance are specified as 4.00 F, 4.00 F, and 8.00 F, respectively. It is possible to determine that the capacitance c3 has to be 2.67 F to store 2.70 x 10-3 J of electrical energy by rearranging the formula and inserting the numbers.

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Which of the following would cause a change in the speed of a sound wave

Answers

Temperature and Density would cause change in the speed of a sound wave. Hence, the correct option is (c) i.e. both a & b.

A change in the speed of a sound wave can be caused by several factors:

1. Temperature: The speed of sound in a medium is directly proportional to the temperature of the medium. As the temperature of a medium increases, the speed of sound in that medium also increases.

2. Density: The speed of sound in a medium is inversely proportional to the density of the medium. As the density of a medium increases, the speed of sound in that medium decreases.

3. Pressure: The speed of sound in a gas is directly proportional to the pressure of the gas. As the pressure of a gas increases, the speed of sound in that gas also increases.

4. Humidity: The speed of sound in a gas, such as air, can be affected by the amount of water vapor present in the gas. As the humidity of the air increases, the speed of sound in that air decreases.

5. Composition of the medium: The speed of sound can also vary depending on the type of medium through which it is traveling. For example, sound travels faster through solids than through gases.

These factors can individually or collectively cause a change in the speed of sound waves.

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Question -

Which of the following would cause a change in the speed of a sound wave.

(a) Temperature

(b) Density

(c) Both a & b

(d) None of the above

Which of the following statements is true about electric current? (There is one correct answer)
Electric current is the flow of electrons from a positive terminal to a negative terminal.

Electric current is the flow of protons from a positive terminal to a negative terminal.

Electric current is the flow of protons from a negative terminal to a positive terminal.

Electric current is the flow of electrons from a negative terminal to a positive terminal.

Answers

second one is correct

how can force be calculated for an object with constant mass?

Answers

The force can be calculated for an object with constant mass using the formula F = ma, where F is the force, m is the mass, and a is the acceleration. This formula is known as Newton's second law of motion.

It states that the force acting on an object is directly proportional to its mass and acceleration. Thus, the greater the mass of the object, the greater the force required to accelerate it at a given rate. For example, if a 2 kg object is accelerated at a rate of 5 m/s^2, the force required to achieve this would be F = 2 kg x 5 m/s^2 = 10 N. In summary, the force can be calculated for an object with constant mass by using Newton's second law of motion, which relates the force to the mass and acceleration of the object.

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which of the following statements about dark matter is false? question 14 options: it may be undiscovered subatomic particles it extends to 200,000ly from the center of the galaxy it makes up more mass compared to the luminous matter it makes up about 80% of the total mass of our galaxy it is in a halo that is nearly spherical

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The statement about dark matter that is false is "it extends to 200,000ly from the center of the galaxy."

Dark matter refers to the invisible matter in space that is thought to be present in galaxies in large amounts. It cannot be seen, felt, or heard, but its gravitational effects can be observed.

The following statements about dark matter are true:

It may be undiscovered subatomic particles.

It makes up more mass compared to luminous matter.

It makes up about 80% of the total mass of our galaxy.

It is in a halo that is nearly spherical.

Dark matter does not extend to 200,000ly from the center of the galaxy. Dark matter is spread throughout the galaxy and beyond, extending far beyond the visible disk of the galaxy.

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what separates the submerged section on the hull of the boat from the section above the water level?

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The waterline separates the submerged section of the hull of the boat from the section above the water level.

The submerged section on the hull of a boat is separated from the section above the water level by the waterline. The waterline is the point where the surface of the water meets the hull of the boat. When a boat is placed in the water, the weight of the boat pushes down on the water and displaces it, creating a gap between the water and the hull. The waterline marks the level at which the boat displaces the water, separating the section of the hull that is below the waterline and submerged in water from the section above the waterline. The size and shape of the submerged section of the hull affect the boat's buoyancy, stability, and speed, making it an important design consideration for boatbuilders.

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The minimum requirements for the design, materials, fabrication, erection, testing, and inspection of various types of piping systems are covered by:________

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The minimum requirements for the design, materials, fabrication, erection, testing, and inspection of various types of piping systems are covered by ASME B31.3 Code.

The ASME B31.3 Code, which specifies the minimal standards for design, materials, fabrication, inspection, testing, and commissioning, is the construction code for process pipe. Your inspection and test plan (ITP) for process piping must adhere to ASME B31.3 Code as a result of the aforementioned rationale.Several organizations publish the norms and standards that are connected to piping systems and pipe components. Representatives from industry associations, manufacturers, professional associations, user groups, governmental organizations, insurance providers, and other interest groups serve on committees for these organizations. The committees are in charge of maintaining, updating, and rewriting the referred codes, standards, specifications, and regulations in light of technology advancements, research, user input, issues, and modifications. Periodically, updates to various codes and standards are published. The most recent versions, addenda, or modifications of the codes and standards that are relevant to engineers, designers, and other professional and technical staff should be kept up to date as a result.

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design an investigation to find a relationship between how far the spring is stretched and how much elastic potential energy is stored in this system. describe the measurements you will make and how you will make those measurements.

Answers

Answer:

To investigate the relationship between how far the spring is stretched and how much elastic potential energy is stored in the system, we can conduct the following experiment:

Materials:

Spring

Meter stick

Weights of different masses

Stopwatch

Triple beam balance

Retort stand

Clamp

Procedure:

Set up a retort stand and attach a clamp to it.

Attach the spring to the clamp.

Place a meter stick vertically next to the spring to measure the distance it is stretched.

Measure and record the natural length of the spring (when no weight is attached).

Add a known mass to the end of the spring and record the new length of the spring.

Calculate the difference between the stretched length and the natural length of the spring.

Repeat steps 5 and 6 for different masses.

Record the time taken for the spring to stretch when the mass is added.

Calculate the elastic potential energy stored in the spring for each mass added, using the formula:

Elastic potential energy = 1/2 x k x (distance stretched)^2

where k is the spring constant of the spring.

Plot a graph of the elastic potential energy stored against the distance stretched for each mass added.

Analyze the relationship between the distance stretched and the elastic potential energy stored.

By measuring the distance stretched and the time taken for the spring to stretch, we can calculate the velocity of the mass and use this to determine the elastic potential energy stored in the spring. By repeating this process for different masses and plotting a graph, we can determine if there is a linear relationship between the distance stretched and the elastic potential energy stored. This investigation will help to better understand the concept of elasticity and its relationship to potential energy.

A 20 kg rock is on the edge of a 100 meter cliff. What is the

potential energy of the rock and if the rock falls off the cliff,

what is its kinetic energy just before striking the ground?

a 361. 4 kJ

b 1kJ. 1 kJ

C 19. 6 kJ, 19. 6 kJ

d 10 kl. 5. 5 ku

Answers

Answer:

Explanation:substitute the values for equation PE=m/vg×

calculate the force of gravity a newborn baby of mass 3.6 kg and the obstetrician of mass 100.0 kg exert on each other when the distance between them is 0.5 m .

Answers

Answer:

F=Gm1m2/r^2



Explanation:

The dispersion of light when it passes through a prism shows that
A. all colors in the light are treated the same.
B. the speed of light in a vacuum is a constant.
C. different different colors have different indices of refraction.
D. the the prism contains many narrow, equally equally spaced slits.​​

Answers

When light passes through a prism, the dispersion of light shows that different colors have different indices of refraction. When light passes through a medium, such as a prism, it is separated into its component colors, referred to as the visible spectrum.

This separation of light into its different colors is known as the dispersion of light. The index of refraction is the measure of how much a ray of light bends when it passes through a medium. When light passes through a medium with a high index of refraction, it bends more than when it passes through a medium with a low index of refraction.

When light passes through a prism, it bends or refracts due to the differences in the index of refraction of each color of light.  Because each color of light has a slightly different index of refraction, they bend at different angles, causing the light to spread out and separate into its component colors, as seen in a rainbow.

The dispersion of light when it passes through a prism shows that different colors have different indices of refraction.

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how far below the bridge will kate eventually be hanging, once she stops oscillating and comes finally to rest? assume that she doesn't touch the water. express the distance in terms of quantities given in the problem introduction.

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When Kate stops oscillating and finally comes to rest, she will be hanging 1.96 meters below the bridge.

This is because, the time period T of a pendulum depends on its length l and acceleration due to gravity g. Mathematically, T = 2π √(l/g)

Therefore, l = (gT²)/(4π²)

Given, T = 4s and g = 9.8m/s²

We can find the length of the pendulum. Hence, l = (9.8m/s²×(4s)²)/(4π²) = 1.96m

Therefore, Kate's distance below the bridge will be 1.96 meters.

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what is the work done by the electric force to move a 1 c charge from a to b? express your answer in joules.

Answers

The work done by the electric force to move a 1 C charge from point A to B is 5 J.

The work done by an electric force to move a 1 coulomb (1 c) charge from point A to point B is calculated using the formula: Work = Force x Distance. As the electric force is equal to the charge multiplied by the electric field (F = qE), the work done is calculated as: Work = (1 c) x (Electric Field) x (Distance from A to B). The result is given in Joules (J). The work done by the electric force to move a 1 C charge from point A to B is calculated by multiplying the charge and the potential difference between the two points.
Therefore, the work done is given by: Work done = qΔV Where:q = 1 CΔV = VB - VA. The electric potential difference between point A and B can be obtained from the electric potential at each point. Therefore, the electric potential difference is given by: ΔV = VB - VA = 10 - 5 = 5 V. Substituting the values of q and ΔV in the above equation, we get:Work done = qΔV = 1 x 5 = 5 J.

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