A 87.0 kg cannon at rest contains a 2.2 kg cannonball. When
firing, the bullet leaves the barrel with a velocity of 23 m / s.
What is the recoil or retreat movement velocity of the cannon? Give
your a

Answers

Answer 1

To determine the recoil or retreat movement velocity of the cannon, we can apply the principle of conservation of momentum. According to this principle, the total momentum before firing is equal to the total momentum after firing.

The momentum of an object is given by the product of its mass and velocity. In this case, the momentum of the cannonball before firing is (2.2 kg) × 0 m/s = 0 kg·m/s since it is at rest. The momentum of the cannonball after firing is (2.2 kg) × 23 m/s = 50.6 kg·m/s.

To maintain the conservation of momentum, the cannon must move in the opposite direction with an equal magnitude of momentum. Let's denote the recoil velocity of the cannon as V.

The momentum of the cannon before firing is (87.0 kg) × 0 m/s = 0 kg·m/s. The momentum of the cannon after firing is (87.0 kg) × (-V) kg·m/s.

Setting the total momentum before and after firing equal, we have:

0 kg·m/s = 50.6 kg·m/s + (-87.0 kg) × V kg·m/s.

Simplifying the equation, we find:

V = -0.581 m/s (approximately)

Therefore, the recoil or retreat movement velocity of the cannon is approximately 0.581 m/s in the opposite direction of the cannonball's velocity.

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Related Questions

Which visual impairment involves fluid buildup in the eye in which the resulting pressure can damage the optic nerve?

Answers

The visual impairment that involves fluid buildup in the eye, leading to increased pressure and potential damage to the optic nerve, is called glaucoma.

Glaucoma is a group of eye conditions characterized by elevated intraocular pressure (IOP) due to a disruption in the normal flow and drainage of fluid (aqueous humor) within the eye. The increased pressure can cause damage to the optic nerve, which is responsible for transmitting visual information from the eye to the brain. If left untreated or uncontrolled, glaucoma can progressively lead to vision loss and eventual blindness. It is often referred to as the "silent thief of sight" because the symptoms are not always apparent in the early stages. Regular eye examinations and early detection are crucial in managing glaucoma, as various treatment options, including medication, laser therapy, or surgery, can help lower the intraocular pressure and preserve vision.

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A hot-air balloon is rising upward with a constant speed of 2.73 m/s. When the balloon is 6.63 m above the ground, the balloonist accidentally drops a compass over the side of the balloon. How much time elapses before the compass hits the ground? Number Units

Answers

we can apply the following kinematic equation to determine the time elapsed before the compass hits the ground;

[tex]h = vi(t) + 1/2(a)(t)^2[/tex]

h = height of the balloon = 6.63 mv

i = initial velocity = 0 m/s (the compass is dropped)

a = acceleration = acceleration due to gravity = -9.8 m/s^2 (negative because it acts in the downward direction)

t = time elapsed before the compass hits the ground

Using the above equation, we get,

6.63 = 0(t) + 1/2(-9.8)(t)^2

=> 6.63 = -4.9(t)^2

=> (t)^2 = 6.63/(-4.9)

=> (t)^2 = -1.352

=> t = sqrt(-1.352)

The time elapsed before the compass hits the ground is t = sqrt(-1.352).

However, we can see that the time elapsed comes out to be imaginary which means the compass cannot hit the ground because it would not have enough time to reach the ground. So, it is safe to conclude that it is an incorrect question with the wrong parameters. the time elapsed before the compass hits the ground is not possible as it's an invalid scenario.

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Light is refracted from water into quartz crystal. If the incident angle is \( 30^{\circ} \), what is the refracted angle? \( 5 . \) A. \( 27.20^{\circ} \) B. \( 29.97^{\circ} \) C. \( 26.58^{\circ} \ "

Answers

The refracted angle when light is refracted from water into a quartz crystal with an incident angle of 30^∘ is approximately 26.58 ^∘(Option C).

 

When light passes from one medium to another, it undergoes refraction, which causes a change in direction. The relationship between the incident angle and the refracted angle (θ1) and the refracted angle (θ2)  is given by Snell's law: sinθ1/sinθ2=n2/n1. where n1 and n2 are the refractive indices of the two media. In this case, the incident medium is water and the refractive medium is quartz crystal. The refractive index of water is approximately 1.33, and the refractive index of quartz crystal is around 1.46. Plugging these values into Snell's law and solving we get, (θ2)=26.58^ ∘  which represents the approximate refracted angle when light passes from water into a quartz crystal with an incident angle of 30^∘.

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A proton with an initial speed of 7.60×10^5 m/s is brought to rest by an electric field. What was the potential difference that stopped the proton? Express your answer with the appropriate units.

Answers

The potential difference that stopped the proton was approximately -1.33 × 10^6 volts.

When a charged particle, such as a proton, is brought to rest by an electric field, it experiences a change in potential energy. This change in potential energy can be calculated using the equation: ΔPE = qΔV, where ΔPE is the change in potential energy, q is the charge of the particle, and ΔV is the potential difference.

In this case, the proton is positively charged with a charge of +1.6 × 10^-19 coulombs. To bring the proton to rest, the change in potential energy must be equal to the initial kinetic energy of the proton. The initial kinetic energy can be calculated using the equation: KE = (1/2)mv^2, where KE is the kinetic energy, m is the mass of the proton, and v is the initial velocity.

Since the mass of a proton is approximately 1.67 × 10^-27 kilograms and the initial velocity is 7.60 × 10^5 m/s, we can calculate the initial kinetic energy.

Substituting the values into the equation: KE = (1/2)(1.67 × 10^-27 kg)(7.60 × 10^5 m/s)^2, we find that the initial kinetic energy is approximately 6.06 × 10^-14 joules.

Since the change in potential energy must be equal to the initial kinetic energy, we can equate the two values: ΔPE = 6.06 × 10^-14 J.

Finally, using the equation ΔPE = qΔV and rearranging for ΔV, we can calculate the potential difference: ΔV = ΔPE / q. Substituting the values, we get ΔV ≈ (6.06 × 10^-14 J) / (1.6 × 10^-19 C) ≈ -1.33 × 10^6 volts.

Therefore, the potential difference that stopped the proton was approximately -1.33 × 10^6 volts.

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One type of BB gun uses a spring-driven plunger to blow the BB from its barrel. a. Calculate the force constant of its plunger's spring if you must compress it 0.18 m to drive the 0.0300−kg plunger to a top speed of 22 m/s. k= b. What force must be exerted to compress the spring? F=

Answers

The force constant (k) of the plunger's spring is approximately 1,222.22 N/m, and the force (F) required to compress the spring is approximately 219.56 N.

To calculate the force constant (k) of the plunger's spring and the force (F) required to compress the spring, we can use the principles of spring potential energy and kinetic energy.

Compression distance (x) = 0.18 m

Mass of the plunger (m) = 0.0300 kg

Top speed of the plunger (v) = 22 m/s

a. To calculate the force constant (k), we can use the formula for the potential energy stored in a spring:

Potential energy (PE) = (1/2) * k * x²

The potential energy stored in the spring is equal to the kinetic energy of the plunger when it reaches its top speed:

PE = (1/2) * m * v²

Setting the two equations equal to each other:

(1/2) * k * x² = (1/2) * m * v²

Solving for k:

k = (m * v²) / x²

Substituting the given values, we can calculate the force constant (k).

b. The force required to compress the spring can be found using Hooke's Law:

F = k * x

Substituting the values of k and x, we can calculate the force (F).

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A The sinusoidal modulating wave m(t) = A cos(2) is applied to a frequency modulator with frequency sensitivity K, The unmodulated carrier wave has frequency fand amplitude 1 Determine the approximated equation of this type of FM, assuming that Ac=1 the maximum frequency deviation A = KE A does not exceed 0.1 radians of 2. Draw the block diagram for generation of FM in part 1 3. Determine the average power of the FM generation 4 Assume B, = 2 determine the average power of new FM SIA ces

Answers

The average power of the new FM generation is given 0.551 W. formula for FM wave can be given as:() = (2 + (2)) Where () = carrier wave, = carrier frequency() = modulating wave, = Amplitude of carrier wave, = Amplitude of modulating wave, = frequency sensitivity.

In the given question: = = 100 kHz = 1, = 0.1 radians, = / ≈ 15.915 .

Substituting the values in the formula for FM wave, we get;() = (2 + (2))= cos(2 × 100 × 103 t + 0.1 sin(2 × 10^3t))≈ cos(2 × 100 × 103 t + 63sin(2 × 10^3t))

The average power of FM is given as: = ()^2/2 × (1 + ()^2/2) × = 1/2 × (1 + (0.1)^2/2) × 1= 0.551 W

Given, = 2The new modulating frequency can be given as:fnew = (1 ± B)fm= 3fm, fmIf the new frequency is 3fm, then the new carrier frequency will be;fnew_c = fc ± fnew= 100 kHz + 3 × 10 kHz= 130 kHz.

The approximated equation for FM is then given as;() = (2 × 130 × 103 t + (2 × 3 × 103t))= cos(2 × 130 × 103 t + 0.1 sin(2 × 3 × 10^3t)).

The average power of the new FM generation is given as: = ()^2/2 × (1 + ()^2/2) × = 1/2 × (1 + (0.1)^2/2) × 1= 0.551 W.

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A dynamite blast at a quarry launches a rock straight upward, and 2.3 s later it is rising at a rate of 14 m/s. Assuming air resistance has no effect on the rock, calculate its speed (a) at launch and (b) 5.3 s after launch.

Answers

The speed of the rock at launch is approximately 29.7 m/s.

The speed of the rock 5.3 seconds after launch is approximately 6.5 m/s.

To determine the speed of the rock at different times, we can utilize the principles of projectile motion and kinematics.

We know that the rock is launched straight upward, and 2.3 seconds later, its upward velocity is given as 14 m/s. At the highest point of its trajectory, the velocity becomes zero before it starts descending.

Using the equation v = u + at, where v is the final velocity, u is the initial velocity, a is the acceleration, and t is the time, we can determine the initial velocity. In this case, the final velocity (v) is 0 m/s, the acceleration (a) is -9.8 m/s² (due to gravity), and the time (t) is 2.3 s. Plugging these values into the equation, we find u = v - at = 0 - (-9.8) × 2.3 = 22.54 m/s. Thus, the speed of the rock at launch is approximately 22.54 m/s.

To find the speed of the rock 5.3 seconds after launch, we need to consider the time it takes to reach that point. Since the rock was launched straight upward, it will take the same amount of time to reach its maximum height as it will to descend and reach the desired time of 5.3 seconds.

Therefore, the total time of flight is 2 × 5.3 = 10.6 seconds. At the peak of its trajectory, the rock momentarily comes to a stop before it starts descending. So, using the same equation v = u + at, where v is the final velocity, u is the initial velocity, a is the acceleration, and t is the time, we can determine the initial velocity. Here, the final velocity (v) is 0 m/s, the acceleration (a) is -9.8 m/s² (due to gravity), and the time (t) is 10.6 s.

Substituting these values, we get u = v - at = 0 - (-9.8) × 10.6 = 103.88 m/s. Hence, the speed of the rock 5.3 seconds after launch is approximately 103.88 m/s.

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7- What would need to be recorded
to mesasure acceleration of a sprinter just leaving the blocks on a
track?

Answers

To measure acceleration of a sprinter just leaving the blocks on a track, certain factors would need to be recorded. These factors include the distance covered by the sprinter, the time taken to cover that distance, and the initial velocity of the sprinter.

The initial velocity of the sprinter would be zero since he/she is just leaving the blocks on the track. Therefore, the acceleration can be calculated using the following formula:

a = (v_f - v_i) / t

Where:a is the accelerationv_f is the final velocity of the sprinterv_i is the initial velocity of the sprintert is the time taken by the sprinter to cover a certain distance.

The distance covered by the sprinter would be measured from the starting line to the point where the sprinter stops, while the time taken would be measured using a stopwatch. The final velocity of the sprinter would also need to be measured after a certain distance has been covered.In conclusion, to measure acceleration of a sprinter just leaving the blocks on a track, the distance covered by the sprinter, the time taken to cover that distance, and the initial velocity of the sprinter need to be recorded.

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Action Action Force Reaction Force A bullet is tired from a gun by the expanding gases. expanding gases pushing on bullet pushing back on the the bullet expanding gases player's hands exert a forward force on the ball A volleyball is served The Moon orbits Earth. moonward pull of the Moon acting on Earth A firewoman opens the fire hose, and water sprays forward. A sprinter's shoe hits the ground. D D

Answers

Action, action force, and reaction force are the terms included in the question. A bullet is fired from a gun by the expanding gases, which push forward on the bullet. The bullet exerts a backward action force on the expanding gases. When the player's hands exert a forward force on the ball, the ball exerts a backward reaction force on the player's hands.A volleyball is served, and the server's hand exerts an action force on the ball. The ball exerts an equal and opposite reaction force on the player's hand.The Moon orbits Earth due to the moonward pull of the Moon acting on Earth. The Earth exerts an equal and opposite force on the Moon.A firewoman opens the fire hose, and water sprays forward. The water exerts an action force on the hose backward, and the hose exerts an equal and opposite reaction force on the water forward. When a sprinter's shoe hits the ground, it exerts an action force on the ground. The ground exerts an equal and opposite reaction force on the shoe.

About Reaction

A chemical reaction is a natural process that always results in the change of chemical compounds. Compounds or initial compounds involved in the reaction are referred to as reactants. Chemical reactions occur when one or more substances are converted into new substances. This means that the chemical composition of a substance has changed. It is important to remember that matter is neither created nor destroyed in chemical reactions.

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Red light of 632 nm wavelength is displaced 29 cm from the center a meter stick mounted 60 cm in front of a grating. Considering the first order only, how many lines per millimeter does the grating ha

Answers

The grating has approximately 1.304 lines per millimeter. It is determined by the  number of lines per millimeter on the grating.

To determine the number of lines per millimeter on the grating, we can use the formula for the grating equation:

nλ = d sinθ

where n is the order of diffraction, λ is the wavelength of light, d is the spacing between adjacent lines on the grating, and θ is the angle of diffraction.

In this case, we are considering the first order of diffraction, and the wavelength of red light is given as 632 nm (or 632 x 10^-9 meters). The displacement of the light from the center is 29 cm, which corresponds to the angle of diffraction.

To find the spacing between the grating lines, we rearrange the formula:

d = nλ / sinθ

Plugging in the values:

d = (1 x 632 x [tex]10^-^9[/tex] meters) / sinθ

To find the angle θ, we can use the small angle approximation:

θ ≈ tanθ ≈ (displacement) / (distance to grating) = 29 cm / 60 cm

Now we can calculate the value of d:

d = (1 x 632 x [tex]10^-^9[/tex]meters) / sin(29 cm / 60 cm)

Calculating the value:

d ≈ (1 x 632 x [tex]10^-^9[/tex] meters) / sin(0.4833)

≈ 1.304 x [tex]10^-^6[/tex] meters

To determine the number of lines per millimeter, we convert the spacing to millimeters:

d = 1.304 x [tex]10^-^6[/tex]meters = 1.304 x [tex]10^-^3[/tex] millimeters

Therefore, the grating has approximately 1.304 lines per millimeter.

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An electric forklift truck is capable of doing 5.5 x 105 J of work on a 2.0 x 104 kg load to raise it vertically at constant velocity. To what height can the truck lift the load? (4 marks)
Estimate your own gravitational potential energy relative to the ground when you are in your bed. Show all your workings. (6 marks)
A 5.0 kg monkey swings from one branch to another branch 0.8 m higher. What is its change in potential energy? (4 marks)
How much work is required to accelerate a 1500 kg car from 18 km/h to 72 km/h? (6 marks)

Answers

The electric forklift truck can lift the load to a height of approximately 2.82 meters. The change in potential energy for the monkey swinging between branches is approximately 39.2 J. The work required to accelerate the car from 18 km/h to 72 km/h is approximately 1.44 x[tex]10^6[/tex] J.

The electric forklift truck can do 5.5 x 10^5 J of work on the load to raise it vertically at constant velocity. To determine the height, we use the formula for gravitational potential energy: PE = mgh, where m is the mass of the load, g is the acceleration due to gravity, and h is the height.

Rearranging the formula, we have h = PE / (mg).

Plugging in the given values,

we get h = (5.5 x [tex]10^5[/tex] J) / ((2.0 x [tex]10^4[/tex] kg) * (9.8 [tex]m/s^2[/tex])) ≈ 2.82 m.

Therefore, the electric forklift truck can lift the load to a height of approximately 2.82 meters.

The change in potential energy for the monkey swinging between branches can be calculated using the formula ΔPE = mgΔh, where ΔPE is the change in potential energy, m is the mass of the monkey, g is the acceleration due to gravity, and Δh is the change in height. In this case, Δh is given as 0.8 m.

Plugging in the values,

we have ΔPE = (5.0 kg) * (9.8 m/s^2) * (0.8 m) ≈ 39.2 J.

Therefore, the change in potential energy for the monkey swinging between branches is approximately 39.2 J.

To calculate the work required to accelerate a car from one speed to another, we use the formula W = ΔKE, where W is the work done, ΔKE is the change in kinetic energy, and kinetic energy is given by KE = (1/2)[tex]mv^2[/tex]. The change in kinetic energy can be calculated as ΔKE = (1/2)m([tex]v_f^2[/tex] - [tex]v_i^2[/tex]), where [tex]v_f[/tex] is the final velocity and [tex]v_i[/tex] is the initial velocity.

Plugging in the values,

we have ΔKE = (1/2)(1500 kg)([tex](72 km/h)^2[/tex] -[tex](18 km/h)^2)[/tex] ≈ 1.44 x[tex]10^6[/tex] J.

Therefore, the work required to accelerate the car from 18 km/h to 72 km/h is approximately 1.44 x[tex]10^6[/tex]J.

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for each cell, or geographical area, a cellular phone system requires

Answers

For each cell or geographical area, a cellular phone system typically requires the following components Base Station, Antennas etc.

For each cell or geographical area, a cellular phone system typically requires the following components;

1. Base Station: A base station, also known as a cell site or cell tower, is a structure that houses the equipment necessary for transmitting and receiving cellular signals. It consists of antennas, transceivers, and other equipment to communicate with mobile devices within the cell.

2. Antennas: Antennas are responsible for transmitting and receiving radio signals between the base station and mobile devices. They are strategically placed on the cell tower or distributed throughout the cell area to ensure optimal coverage and signal strength.

3. Transceivers: Transceivers are devices that enable the base station to transmit and receive signals to and from mobile devices. They handle the encoding, modulation, and decoding of signals to facilitate communication between the base station and mobile devices.

4. Switching Equipment: Switching equipment is responsible for connecting calls and data between different cells and the wider telephone network. It manages the routing of calls and data to their intended destinations.

5. Control Equipment: Control equipment is used to manage and coordinate the operation of the entire cellular network. It handles tasks such as managing handoffs between cells, allocating frequencies, controlling power levels, and managing network resources.

6. Backhaul Connection: A backhaul connection refers to the link that connects the base station to the core network or central switching center. It provides the necessary communication path for transmitting data and voice traffic between the cell site and the wider network.

7. Power Supply: Each cell requires a reliable power supply to ensure continuous operation. This may involve connecting the base station to the electrical grid or using alternative power sources such as batteries or generators in remote areas or during power outages.

These components work together to provide coverage, facilitate communication, and connect mobile devices to the wider cellular network. By dividing the service area into cells and strategically deploying these components, cellular phone systems can efficiently provide wireless communication services to users.

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A football is punted into the air. It has an initial vertical velocity of 15 m/s when it leaves the kicker’s foot (assume that air resistance is negligible). What is the vertical velocity 1, 1.5, and 2 seconds after it leaves the kicker’s foot? What is the vertical position 1, 1.5, and 2 seconds after it leaves the kicker’s foot?

Answers

When a football is punted into the air, it has an initial vertical velocity of 15 m/s when it leaves the kicker’s foot. The vertical velocity 1 second after it leaves the kicker’s foot can be determined as follows:

u = 15 m/s (given)g = -9.81 m/s² (negative since acceleration due to gravity acts downwards)

Using the formula, v = u + gt, we can find the vertical velocity after 1 second:

v = u + gt= 15 - 9.81 x 1= 5.19 m/s

The vertical velocity 1 second after it leaves the kicker’s foot is 5.19 m/s.

The vertical velocity 1.5 seconds after it leaves the kicker’s foot can be determined using the same formula:

v = u + gt= 15 - 9.81 x 1.5= -3.135 m/s (negative since the ball has been decelerated by gravity)

The vertical velocity 1.5 seconds after it leaves the kicker’s foot is -3.135 m/s.

The vertical velocity 2 seconds after it leaves the kicker’s foot can also be determined using the same formula:

v = u + gt= 15 - 9.81 x 2= -19.62 m/s (negative since the ball is now moving downwards)

The vertical velocity 2 seconds after it leaves the kicker’s foot is -19.62 m/s.

The vertical position 1 second after it leaves the kicker’s foot can be determined using the formula s = ut + (1/2)gt², where s is the vertical position:

s = ut + (1/2)gt²= 15 x 1 + (1/2) x (-9.81) x 1²= 10.095 m

The vertical position 1 second after it leaves the kicker’s foot is 10.095 m.

The vertical position 1.5 seconds after it leaves the kicker’s foot can also be determined using the same formula:

s = ut + (1/2)gt²= 15 x 1.5 + (1/2) x (-9.81) x 1.5²= 8.50725 m

The vertical position 1.5 seconds after it leaves the kicker’s foot is 8.50725 m.

The vertical position 2 seconds after it leaves the kicker’s foot can also be determined using the same formula:

s = ut + (1/2)gt²= 15 x 2 + (1/2) x (-9.81) x 2²= 0 m

The vertical position 2 seconds after it leaves the kicker’s foot is 0 m, which means that it has returned to the ground.

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Assume that the potential energy of two particles in the field of each other is given by : ?At what distance the two particles form a stable compound

Answers

The potential energy of two particles in the field of each other is given by a formula, which can be used to find out the distance at which the two particles form a stable compound.

The formula for the potential energy of two particles in the field of each other is given by:

V(r) = -A/r + Br,

where A and B are constants and r is the distance between the two particles.

The stable compound is formed when the potential energy is at a minimum.

To find the minimum of this function, we take its derivative with respect to r and set it equal to zero:

[tex]dv/dr = A/r^2 + B = 0[/tex]

Solving for r, we get:

r = sqrt(A/B)

This means that the two particles form a stable compound when they are at a distance of sqrt(A/B) from each other.

The distance at which the two particles form a stable compound depends on the values of A and B. If A is large and negative, the two particles will form a stable compound at a small distance.

If A is small and positive, the two particles will form a stable compound at a large distance.

If B is large, the two particles will form a stable compound at a distance that is proportional to B. If B is small, the two particles will form a stable compound at a distance that is proportional to the square root of A.

Overall, the distance at which the two particles form a stable compound is determined by the balance between the attractive and repulsive forces between them.

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What is the electric fux through the surface when it is at 45∘ to the field? A flat surfaco with area 2.9 m2 is in a uniform Express your answer using two significant figures. electric field of 920 N/C. X Incorrect; Try Again; 22 attempts remaining Part C What is the electric fux through the surtace when it is parallel to the fiald?

Answers

The electric flux through the surface when it is at 45° to the field is 3615 N·m²/C and when it is parallel to the field is 2668 N·m²/C.The electric field is E = 920 N/C.The area of the flat surface is A = 2.9 m².

The electric flux through a surface is given by:Φ = E × A × cosθ where E = electric field, A = area, θ = angle between the area vector and the electric field vector.

At θ = 45°, cosθ = cos(45°) = 1/√2.

Thus, the electric flux is given by:Φ = E × A × cosθ= 920 × 2.9 × (1/√2)= 3615 N·m²/C

When the surface is parallel to the field, then θ = 0° and cosθ = cos(0°) = 1.

So, the electric flux is given by:Φ = E × A × cosθ= 920 × 2.9 × 1= 2668 N·m²/C.

Therefore, the electric flux through the surface when it is at 45° to the field is 3615 N·m²/C and when it is parallel to the field is 2668 N·m²/C.

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The wave functions of the two traveling transverse sinusoidal waves are y1 =Asin(kx−ωt) and y2 =Asin(kx+ωt). These waves combine in a medium to yield the resultant wave with a wave function given by y = y1 +y2. (a) Identify and write the maximum transverse position ymax of the resultant wave in terms of x and A if the wavelength is chosen as λ = 10 A. (b) Find at least the three possible values of x in terms of A for antinodes. (c) Find at least the four possible values of x in terms of A for nodes.

Answers

(a) The maximum transverse position ymax of the resultant wave in terms of x and A if the wavelength is chosen as λ = 10 A.ymax = 2Asin(πx/5). (b)  The three possible values of x in terms of A for antinodes are x = 2.5A, 5A, and 7.5A. (c) The four possible values of x in terms of A for nodes are x = 0, 2.5A, 5A, and 7.5A.

(a) To find the maximum transverse position (ymax) of the resultant wave in terms of x and A, we can simply add the wave functions y1 and y2.

y = y1 + y2

y = Asin(kx - ωt) + Asin(kx + ωt

Using the trigonometric identity for the sum of sines, we have:

y = 2Asin(kx)cos(ωt)

The maximum value of sin(kx) is 1, so the maximum transverse position (ymax) occurs when cos(ωt) is at its maximum value of 1. This happens when ωt = 0 or 2π.

Thus, we have:

ymax = 2Asin(kx)

Since the wavelength (λ) is chosen as λ = 10A, we know that k = 2π/λ = 2π/(10A) = π/(5A).

Substituting the value of k, the maximum transverse position can be written as:

ymax = 2Asin((πx)/(5A))

Simplifying further:

ymax = 2Asin(πx/5)

(b) To find the possible values of x for antinodes, we know that antinodes correspond to the maximum amplitude of the wave. In the equation ymax = 2Asin(πx/5), the maximum value of sin(πx/5) is 1. Therefore, the three possible values of x for antinodes can be obtained by setting sin(πx/5) = 1 and solving for x:

πx/5 = π/2, π, 3π/2

Simplifying, we get:

x = 5/2, 5, 15/2

So, the three possible values of x in terms of A for antinodes are x = 2.5A, 5A, and 7.5A.

(c) Nodes correspond to points where the displacement is zero. In the equation ymax = 2Asin(πx/5), the sin(πx/5) will be zero at integer multiples of π. Therefore, the four possible values of x for nodes can be obtained by setting sin(πx/5) = 0 and solving for x:

πx/5 = 0, π, 2π, 3π

Simplifying, we get:

x = 0, 5/2, 5, 15/2

So, the four possible values of x in terms of A for nodes are x = 0, 2.5A, 5A, and 7.5A.

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Two point charges are separated by 5.6 cm. The attractive force between them is 30 N. Suppose that the charges attracting each other have equal magnitude. Part A Rearrange Coulomb's law and find the magnitude of each charge.

Answers

We find that each charge has a magnitude of approximately 0.097 C. To find the magnitude of each charge, we can rearrange Coulomb's law equation to solve for the charges.

Coulomb's law states that the force between two point charges is proportional to the product of their magnitudes and inversely proportional to the square of the distance between them. Mathematically, it can be expressed as F = k * (q1 * q2) / r^2, where F is the force, k is the electrostatic constant, q1 and q2 are the magnitudes of the charges, and r is the distance between them.

In this case, we are given that the attractive force between the charges is 30 N and the distance between them is 5.6 cm (which can be converted to meters as 0.056 m). Rearranging the equation, we have q1 * q2 = (F * [tex]r^2[/tex]) / k.

Substituting the known values, we get q1 * q2 = (30 N * ([tex]0.056 m)^2[/tex]) / k.

The electrostatic constant, k, has a value of approximately 9 x [tex]10^9 Nm^2/C^2[/tex]. Plugging in this value, we can solve for the magnitude of each charge:

q1 * q2 = (30 N * ([tex]0.056 m)^2[/tex]) / (9 x [tex]10^9 Nm^2/C^2[/tex])

q1 * q2 = [tex]0.009408 C^2[/tex]

Since the charges have equal magnitude, we can denote them as q1 = q and q2 = q. Therefore, [tex]q^2[/tex]= 0.009408 [tex]C^2[/tex], which implies q = √(0.009408 [tex]C^2)[/tex].

Calculating the square root, we find that each charge has a magnitude of approximately 0.097 C.

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what mass of LNG (kg) will the tank hold? What is the quality in the tank? 2.43 A 400-m³ storage tank is being constructed to hold liquified natural gas (LGN), which may be assumed to be essentially pure methane. If the tank is to con- tain 90% liquid and 10% vapor, by volume, at 150 k,

Answers

Volume of the tank (V) = 400 m³ Percentage of liquid = 90%Percentage of vapor = 10%Pressure = 150 k PaAssuming that the liquefied natural gas (LNG) is essentially pure methane.

The critical temperature and pressure of methane are 190.6 K and 4.6 MPa, respectively.Since the pressure of the gas inside the tank (150 kPa) is lower than the critical pressure, the methane in the tank is in a compressed liquid state at 150 kPa.Using the Peng-Robinson equation of state, the density of methane at 150 kPa and 120 K (to be explained shortly) is:ρ = 0.434 kg/m³.

The quality of the liquid in the tank (x) can be calculated from the equation:x = ρv/(ρl - ρv), where ρv and ρl are the densities of the vapor and liquid phases, respectively, and v and l are the specific volumes of the vapor and liquid phases, respectively.Since the volume of the tank is 400 m³ and the percentage of liquid is 90%, the volume of the liquid (Vl) in the tank is:Vl = 0.9 × V = 360 m³.

The volume of the vapor (Vv) in the tank is:Vv = 0.1 × V = 40 m³ The specific volume of the compressed liquid can be obtained from the generalized compressibility chart for methane. At 150 kPa and a reduced temperature (Tr) of 0.63, the specific volume is 0.00113 m³/kg.Hence, the mass of the LNG in the tank is:m = Vlρl = 360 × 464 = 167,040 kgTherefore, the mass of LNG that the tank will hold is 167,040 kg.

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the primary si unit for the magnetic field strength is

Answers

The primary SI unit for magnetic field strength is the Tesla (T). The Tesla is defined as the amount of magnetic field that exerts a force of one Newton on a current-carrying conductor per meter of length, when the conductor is placed perpendicular to the magnetic field.

It is named after the Serbian-American inventor and electrical engineer, Nikola Tesla. The Tesla is a large unit, so smaller units like the Gauss (G) are also commonly used to express magnetic field strength, where 1 Tesla is equal to 10,000 Gauss.

The Tesla is widely used in scientific and engineering applications to quantify and measure the strength of magnetic fields produced by magnets, electric currents, and other sources.

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What color would a star of temperature of 10,000 kelvin be to
human eyes?
a.
red
b.
blue
c.
white
d.
Human eyes couldn't see it as it is outside the visible
wavelengths for humans.

Answers

A star with a temperature of 10,000 Kelvin would appear bluish-white to human eyes. The color of a star is determined by its temperature, with hotter stars emitting bluer light and cooler stars emitting redder light.

At 10,000 Kelvin, the star is relatively hot, and it emits a significant amount of blue light. This blue light dominates the star's overall color perception, giving it a bluish hue.

However, it's important to note that stars do emit light across a wide range of wavelengths, including those outside the visible spectrum.

While human eyes are most sensitive to light within the visible range, a star's emission spectrum may extend beyond what we can see. Nonetheless, the visible light emitted by a star with a temperature of 10,000 Kelvin would predominantly appear as a bluish-white color to human observers.

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A water pipe having a 2.70 cm inside diameter carries water into the basement of a house at a speed of 0.791 m/5 and a pressure of 210 kPa. If the pipe tapers to 1.19 cm and rises to the second floor 6.84 m above the input point, what are the (a) speed and (b) water pressure at the second floor? (a) Number Units (b) Number Units Attempts: 1 of 5 used Using multiple atternpts will impact your score 10% score reduction after attempt 3

Answers

The speed of the water on the second floor is 45.03 m/s and the pressure of the water on the second floor is 81830 Pa. We can use the Bernoulli equation.

The speed of the water at the second floor can be found using the Bernoulli equation:

P_1 + 1/2 ρv_1^2 + ρgh_1 = P_2 + 1/2 ρv_2^2 + ρgh_2

where:

P_1 is the pressure at the first floor

P_2 is the pressure at the second floor

ρ is the density of water

v_1 is the speed of the water at the first floor

v_2 is the speed of the water at the second floor

h_1 is the height of the first floor

h_2 is the height of the second floor

Substituting the values, we get:

210 kPa + 1/2 * 1000 kg/m^3 * (0.791 m/s)^2 + 1000 kg/m^3 * 9.81 m/s^2 * 6.84 m = P_2 + 1/2 * 1000 kg/m^3 * v_2^2

Solving for v_2, we get:

v_2 = 45.03 m/s

(b)

The pressure of the water at the second floor can be found by rearranging the Bernoulli equation:

P_2 = P_1 + 1/2 ρv_1^2 - ρgh_1 - 1/2 ρv_2^2

Substituting the values, we get:

P_2 = 210 kPa + 1/2 * 1000 kg/m^3 * (0.791 m/s)^2 - 1000 kg/m^3 * 9.81 m/s^2 * 6.84 m - 1/2 * 1000 kg/m^3 * (45.03 m/s)^2

P_2 = 81830 Pa

Therefore, the speed of the water at the second floor is 45.03 m/s and the pressure of the water at the second floor is 81830 Pa.

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An object is launched at an angle of 30 degrees from the ground. It hits the ground again after 10.0 s. What was its inatial tiertical velocity? v
oy

= m/s.

Answers

The initial vertical velocity of the object was v₀ = 0 m/s.The angle of launch, θ = 30°, Total time taken, t = 10 seconds and Final vertical displacement, y = 0, Initial horizontal velocity, vₓ = v₀ cos θ.

Initial vertical velocity, vᵧ = v₀ sin θ.

We know that the time of flight of the object, t = 2 × tₘₐₓwhere, tₘₐₓ = time to reach maximum height= vᵧ/g.

Now, t = 2vᵧ/g vᵧ = gt/2.

Substituting the given values, vᵧ = g × t / 2 = 9.8 × 10 / 2= 49 m/s.

Now, we know that vertical displacement y = vᵧt + (1/2) g t².

We can calculate the initial velocity, v₀ using the above equation:v₀ = y / (vᵧt + (1/2) g t²).

Putting the values, v₀ = 0 / (49 × 10 + (1/2) × 9.8 × 10²)≈ 0 m/s.

Therefore, the initial vertical velocity of the object was v₀ = 0 m/s.

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Current Attempt in Progress A Makeshift Elevator While exploring an elaborate tunnel system, you and your team get lost and find yourselves at the bottom of 450−m vertical shaft. Suspended from a thick rope (near the floor) is a large rectangular bucket that looks like it had been used to transport tools and debris up and down the tunnel. Mounted on the floor near one of the walls is a gasoline engine (3.4 hp) that turns a pulley and rope, and a sign that reads "Emergency Lift." It is clear that the engine is used to drive the bucket up the shaft. On the wall next to the engine is a sign indicating that a full tank of gas will last exactly 15 minutes when the engine is running at full power. You open the engine's gas tank and estimate that it is 1/4 full, and there are no other sources of gasoline. (a) Assuming zero friction, if you send your team's lightest member (who weighs 125lb ), and the bucket weight 150lb when empty, how far up the shaft will the engine take her (and the bucket)? Will it get her out of the mine? (b) Assuming an effective collective friction (from the pulleys, etc.) of μ
eff

=0.11 (so that F
f

= μ
eff

Mg, where M is the total mass of the bucket plus team member), will the engine (with a 1/4full tank of gas) lift her to the top of the shaft? (Determine what is the maximum height the engine can lift her up.) (a) Number Units (b) Number Units

Answers

If the person and the bucket start at a height of 473 m or more, the engine will be able to lift them to the top. If they start at a height of less than 473 m, the engine will not be able to lift them to the top. The maximum height the engine can lift them to is 150 m + 473 m = 623 m.

a) Assuming zero friction, the bucket will accelerate downwards at 9.8 m/s².

The force on the bucket when it is accelerating upwards (and therefore is being lifted) is equal to the difference between the force of gravity and the force due to the tension in the rope:

buoyant force upward due to tension - gravitational force downward = m x a

where m is the mass and a is the acceleration.

f_t - (m_b + m_p) * g = - (m_b + m_p) * a

where f_t is the tension force, m_b is the mass of the bucket, m_p is the mass of the person, g is the acceleration due to gravity, and a is the acceleration.

f_t = (m_b + m_p) * g - (m_b + m_p) * af_t = (m_b + m_p) * (g - a)

The tension in the rope is the same at the bottom and the top because it is the same rope.

Therefore, the tension at the top equals the force due to gravity.

The maximum force is equal to the force due to gravity when the acceleration is zero.

Therefore, f_t = (m_b + m_p) * g = 1470 * 9.8 = 14406 N

For zero friction, the tension force is greater than the force due to gravity when the person is moving upwards. Therefore, the person and the bucket will reach the top. In order to find out how far they go, use conservation of energy.

Initially, the total energy is m_p * g * h, where h is the height they are lifted.

At the top, the total energy is (m_b + m_p) * g * d, where d is the distance the bucket falls.

Since there is no friction, the total energy is conserved.

m_p * g * h = (m _b + m_p) * g * dh = d * (m_b + m_p) / m_p= 450 * (150 + 125) / 125= 810 m

Therefore, the bucket and the person will reach a height of 810 m above the bottom of the shaft. Yes, the person will get out of the mine.b)

Since there is friction, the tension force is no longer greater than the force due to gravity. In order to lift the person and the bucket, the tension force has to be greater than the sum of the gravitational force and the force due to friction.

f_t - (m_b + m_p) * g - F_f = - (m_b + m_p) * af_t = (m_b + m_p) * (g - a) - F_f

The frictional force is given by F_f = μ_eff * (m_b + m_p) * g,

where μ_eff is the effective coefficient of friction. The acceleration is again found by using conservation of energy. Initially, the total energy is m_p * g * h.

At the top, the total energy is (m_b + m_p) * g * d - F_f * d.

Therefore,

m_p * g * h = (m_b + m_p) * g * d - F_f * dd = (m_p * g * h + μ_eff * (m_b + m_p) * g * d) / ((m_b + m_p) * g)

For the person and bucket to reach the top, the distance they travel has to be at least 450 m.

Therefore, we can solve for the minimum initial height.

h = (m_p * g * 450 + μ_eff * (m_b + m_p) * g * 450 / ((m_b + m_p) * g)= 0.11 * 575 / 1.25 + 450= 473 m

Therefore, if the person and the bucket start at a height of 473 m or more, the engine will be able to lift them to the top. If they start at a height of less than 473 m, the engine will not be able to lift them to the top. The maximum height the engine can lift them to is 150 m + 473 m = 623 m.

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Determine the net electric force acting on a point charge qo= -3 μC located at (-1,2) m due to the point charges q₁=-5 μC located at (-2, 3) m and q2 = 12 μC located at (3, 1) m. Express the net electric force in terms of unit vectorrs along x and y directions.

Answers

The net electric force acting on the point charge qo is approximately 0.113 N in the positive x-direction and -2.652 N in the negative y-direction.

The steps with calculations to determine the net electric force acting on the point charge qo:

Step 1: Given quantities:

qo = -3 μC

q₁ = -5 μC

q₂ = 12 μC

r₁ = (-2, 3) m

r₂ = (3, 1) m

k = 9 x 10^9 N m²/C²

Step 2: Calculate the distance between qo and q₁:

Δr₁ = r₁ - rₒ = (-2, 3) - (-1, 2) = (-2 + 1, 3 - 2) = (-1, 1)

|Δr₁| = √((-1)² + 1²) = √(1 + 1) = √2

Step 3: Calculate the distance between qo and q₂:

Δr₂ = r₂ - rₒ = (3, 1) - (-1, 2) = (3 + 1, 1 - 2) = (4, -1)

|Δr₂| = √(4² + (-1)²) = √(16 + 1) = √17

Step 4: Calculate the individual electric forces:

F₁ = k * (qo * q₁) / |Δr₁|²

F₁ = (9 x 10^9) * (-3 μC * (-5 μC)) / (2)²

F₁ = (9 x 10^9) * (15 x 10^-6 C²) / 4

F₁ = 3.375 N

F₂ = k * (qo * q₂) / |Δr₂|²

F₂ = (9 x 10^9) * (-3 μC * 12 μC) / (17)²

F₂ = (9 x 10^9) * (-36 x 10^-6 C²) / 289

F₂ = -1.122 N

Step 5: Resolve the forces into their x and y components:

F₁x = F₁ * (xₒ - x₁) / |Δr₁|

F₁x = 3.375 N * (-1 - (-2)) / √2

F₁x = 3.375 N * (1) / √2

F₁x = 2.385 N

F₁y = F₁ * (yₒ - y₁) / |Δr₁|

F₁y = 3.375 N * (2 - 3) / √2

F₁y = 3.375 N * (-1) / √2

F₁y = -2.385 N

F₂x = F₂ * (xₒ - x₂) / |Δr₂|

F₂x = -1.122 N * (-1 - 3) / √17

F₂x = -1.122 N * (-4) / √17

F₂x = -2.272 N

F₂y = F₂ * (yₒ - y₂) / |Δr₂|

F₂y = -1.122 N * (2 - 1) / √17

F₂y = -1.122 N * (1) / √17

F₂y = -0.267 N

Step 6: Calculate the net electric force:

F_net = F₁x * i + F₁y * j + F₂x * i + F₂y * j

F_net = (2.385 N * i - 2.385 N * j) + (-2.272 N * i - 0.267 N * j)

F_net = (0.113 N * i - 2.652 N * j)

Therefore, the net electric force acting on the point charge qo is approximately 0.113 N in the positive x-direction and -2.652 N in the negative y-direction.

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Problem 6: A single circular loop with a radius of R=50 cm is placed in a uniform external magnetic field with initial strength of 30 T so that the plane of the coil is perpendicular to the field. The strength of the B-field changes to-10 T in 0.2 sec. The loop includes resistor of resistance of 250 2. a) Find the average induced emf(AV) during this time interval of 0.3 sec. b) What's the induced current I and power P dissipated through the resistor R? c) What is the magnitude of the induced magnetic field (produced by this induced current) along this circular loop/wire? d) What would the average induced emf and the induced current be if there were 15 loops?

Answers

a) The average induced emf(AV) during this time interval of 0.3 sec is -200 V.

b) The induced current I and power P dissipated through the resistor R is-0.8 A and 0.64 W respectively.

c) The magnitude of the induced magnetic field along the circular loop/wire is 0.8 × [tex]10^-^7 T[/tex].

d) The average induced emf and the induced current be if there were 15 loops will be -3000V and - 12A respectively.

a) To find the average induced emf (AV), we use the equation AV = (change in magnetic flux)/(change in time). The change in magnetic field is -40 T (from -10 T to 30 T), and the change in time is 0.2 s. Plugging these values into the equation:

AV = (-40 T)/(0.2 s) = -200 V

The average induced emf during this time interval is -200 V.

b) The induced current (I) can be found using Ohm's law, which states that I = AV/R, where R is the resistance. The resistance is given as 250 Ω. Plugging in the value for AV from part a), we can calculate the induced current:

I = (-200 V)/(250 Ω) = -0.8 A

The induced current is -0.8 A.

To calculate the power dissipated (P), we use the equation P = [tex]I^2R[/tex]:

P = [tex](-0.8 A)^2[/tex] * 250 Ω = 0.64 * 250 W = 160 W

The power dissipated through the resistor is 160 W.

c) The magnitude of the induced magnetic field along the circular loop/wire can be determined using Ampere's law. Since the loop is a closed loop, the magnetic field produced by the induced current will create a magnetic field along the loop. The magnitude of the induced magnetic field can be found using the equation B = μ0I/(2πr), where μ0 is the permeability of free space, I is the current, and r is the radius of the loop. Plugging in the values:

B = (4π × [tex]10^-^7[/tex] T·m/A) * (-0.8 A) / (2π * 0.5 m)

B = -0.8 × [tex]10^-^7[/tex]T

The magnitude of the induced magnetic field along the circular loop/wire is 0.8 × [tex]10^-^7[/tex]T.

d) If there were 15 loops instead of one, the average induced emf and the induced current would be multiplied by a factor of 15:

Average induced emf = -200 V * 15 = -3000 V

Induced current = -0.8 A * 15 = -12 A

So, if there were 15 loops, the average induced emf would be -3000 V and the induced current would be -12 A.

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Standing 42.7 m away from a rock wall, you yell. How much time in seconds will it take you to hear your echo to two significant digits? Make sure to account for the travel from you to the wall and from the wall back to you.

Answers

we get:t = 2 × 42.7/343 = 0.265s.Rounding off to two significant digits, the time taken for the echo to reach you is 0.27 seconds.

Given, Distance between the rock wall and you, d = 42.7 mVelocity of sound in air, v

= 343 m/sThe time taken to hear an echo is given by:

t = 2d/v [Since the sound has to travel twice the distance between the wall and the person]Substituting the given values, we get,t = 2 × 42.7/343 = 0.265s

Therefore, the time taken for you to hear your echo is 0.27 seconds (rounded to two significant digits).Explanation:Let us understand the given problem. You are standing at a distance of 42.7 m from a rock wall and you yell. The time required to hear your echo has to be calculated.

The speed of sound in air is 343 m/s.The sound has to travel twice the distance between the rock wall and you. Hence, the total distance travelled by the sound = 2d = 2 × 42.7 m. The velocity of sound in air

= 343 m/s. Using the formula, t

= d/v, we get the time taken for the sound to travel the distance, d. But here, the sound travels twice the distance. Therefore, we need to modify the formula as follows:

t = 2d/v.The above formula gives the time taken for the sound to travel from you to the rock wall and back to you. Substituting the given values in the formula,

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If the velocity versus time graph of an object is a horizontal line, parallel to the +x axis, the object is a) at rest b) moving with zero acceleration c) moving with decreasing speed d) moving with constant non-zero acceleration e) moving with increasing speed

Answers

The velocity versus time graph is a graphical representation of an object’s motion. In this case, if the velocity versus time graph of an object is a horizontal line parallel to the +x axis, it means that the object is not accelerating.

Hence, the correct answer is option B – moving with zero acceleration.If the velocity versus time graph is a horizontal line, it implies that the object's velocity is constant with time. A horizontal line indicates that the object's velocity is not changing with time; this means that the object is not accelerating.

Therefore, if an object has a horizontal line parallel to the +x axis in its velocity versus time graph, the object is moving with zero acceleration and a constant velocity, thus, option B is the correct answer.In conclusion, the velocity versus time graph of an object shows the motion of the object. A horizontal line indicates that the object's velocity is constant with time; hence, the object is not accelerating.

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A 3.2μF capacitor is discharging in an RC circuit with the resistor equal to 2.7kΩ. If the current at the beginning of the discharge is 5.0 A. What is the current after 6.25 ms ?

Answers

The current after 6.25 ms in the RC circuit is approximately 2.41 A. To find the current after a specific time during the discharge of an RC circuit, we can use the formula: I(t) = I₀ * e^(-t / RC).

To find the current after a specific time during the discharge of an RC circuit, we can use the formula:

I(t) = I₀ * e^(-t / RC)

where I(t) is current at time t, I₀ is the initial current, e is the base of the natural logarithm (approximately 2.71828), t is the time, R is the resistance, and C is the capacitance.

Given:

I₀ = 5.0 A (initial current)

t = 6.25 ms = 6.25 × 10^-3 s (time)

R = 2.7 kΩ = 2.7 × 10^3 Ω (resistor)

C = 3.2 μF = 3.2 × 10^-6 F (capacitance)

We can substitute these values into the equation to find the current after 6.25 ms:

I(t) = I₀ * e^(-t / RC)

I(t) = 5.0 A * e^(-6.25 × 10^-3 s / (2.7 × 10^3 Ω * 3.2 × 10^-6 F))

Calculating the exponent first:

-6.25 × 10^-3 s / (2.7 × 10^3 Ω * 3.2 × 10^-6 F) ≈ -0.730

Now, substitute the value into the equation:

I(t) = 5.0 A * e^(-0.730)

Calculating the exponential term:

e^(-0.730) ≈ 0.481

Finally, calculate the current after 6.25 ms:

I(t) ≈ 5.0 A * 0.481

I(t) ≈ 2.41 A

Therefore, the current after 6.25 ms in the RC circuit is approximately 2.41 A.

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If one grinding machine produces sound of 78.4 dB, then:

a) Find the intensity of that sound.

b) Find the intensity and decibel level if 7 grinding machines are making noise together.

Answers

The sound produced by one grinding machine is 78.4 dB. We need to find the intensity of sound and decibel level produced if 7 grinding machines are making noise together.

(a) The intensity of sound produced by a grinding machine is given by the formula:

I = (10^(dB/10)) × I₀ Where, I₀ = threshold of hearing = 1 × 10⁻¹² W/m² (given)dB = 78.4 dBI = (10^(78.4/10)) × (1 × 10⁻¹²) W/m²I = 2.51 × 10⁻⁵ W/m².

Therefore, the intensity of sound produced by a grinding machine is 2.51 × 10⁻⁵ W/m².

(b) The intensity of sound produced by 7 grinding machines together is given by the formula: I₁ = n × IWhere, n = a number of machines = 7 I = intensity of sound produced by one machine = 2.51 × 10⁻⁵ W/m² I₁ = 7 × 2.51 × 10⁻⁵ W/m² = 1.75 × 10⁻⁴ W/m².

The decibel level produced by 7 machines can be found using the formula:dB = 10 log₁₀ (I₁/I₀) Where I₀ = threshold of hearing = 1 × 10⁻¹² W/m² (given)I₁ = 1.75 × 10⁻⁴ W/m²dB = 10 log₁₀ (1.75 × 10⁻⁴ / 1 × 10⁻¹²) dB = 10 log₁₀ (1750)dB = 10 × 3.243 = 32.43 dB.

Therefore, the intensity of sound produced by 7 grinding machines together is 1.75 × 10⁻⁴ W/m² and the decibel level produced is 32.43 dB.

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7. A man applies a force of 330 N at an angle 60 degrees relative to a door. If the door is 2 meters wide, and a wedge is placed 1.5 m from the center of door rotation, how much force must the wedge exert to prevent the applied force from opening the door?

Answers

A man applies a force of 330 N at an angle 60 degrees relative to a door. The wedge must exert a force of 214.5 N to prevent the applied force from opening the door.

To determine the force required from the wedge to prevent the door from opening, we need to analyze the torque acting on the door. Torque is the rotational force that causes an object to rotate.

The torque exerted by the applied force can be calculated using the equation:

Torque = Force * Distance * sin(θ)

where:

Force is the magnitude of the applied force (330 N),

Distance is the distance from the point of rotation to the point of force application (1.5 m),

θ is the angle between the applied force and the lever arm (60 degrees).

Calculating the torque exerted by the applied force:

Torque = 330 N * 1.5 m * sin(60 degrees)

= 330 N * 1.5 m * √3/2

= 330 N * 1.5 m * √3/2

= 214.5 Nm

To prevent the door from opening, an equal and opposite torque must be exerted by the wedge. The distance from the point of rotation to the point of wedge application is half the width of the door, so it is 1 meter.

Therefore, the force required from the wedge to counteract the applied force is:

Force = Torque / Distance

= 214.5 Nm / 1 m

= 214.5 N

Hence, the wedge must exert a force of 214.5 N to prevent the applied force from opening the door.

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