You are standing at the top of a cliff that has

a stairstep configuration. There is a vertical

drop of 5 m at your feet, then a horizontal

shelf of 9 m , then another drop of 5 m to the

bottom of the canyon, which has a horizontal

floor. You kick a 0.22 kg rock, giving it an

initial horizontal velocity that barely clears

the shelf below.


What initial horizontal velocity v will be

required to barely clear the edge of the shelf

below you? The acceleration of gravity is

9.8 m/s^2

Consider air friction to be negligible.

Answer in units of m/s.

B) How far from the bottom of the second cliff
will the projectile land?
Answer in units of m

Answers

Answer 1

Around 8.82 m/s of starting horizontal velocity is needed to just barely clear the shelf's edge. Around 8.99 metres from the base of the second cliff, the rock will land.

What is the equation for starting horizontal velocity?

By multiplying the ball's diameter (d) by the amount of time (t) required for it to travel through the photogate, one may calculate the initial horizontal velocity of the object. Vo therefore equals d/t.

We can get the initial velocity necessary to raise the boulder to a height of 5 m using the kinematic equation:

Δy = V_iy*t + (1/2)a_yt²

We can find this time using the equation:

Δy = (1/2)a_yt²

where Δy = 5 m and a_y = 9.8 m/s².

Solving for t, we get:

t = sqrt(2Δy/a_y) = sqrt(25/9.8) ≈ 1.02 s

The initial horizontal velocity can be calculated using the rock's horizontal distance, time, and the equation: x = V ix*t, where x = 9 m and V ix represents the initial horizontal velocity.

Solving for V_ix, we get:

V_ix = Δx/t = 9/1.02 ≈ 8.82 m/s

B) Given that the rock has the same beginning vertical velocity and acceleration due to gravity, the time it takes to fall from the second cliff to the canyon's bottom is also around 1.02 s. The rock will move horizontally over the following distance:

Δx = V_ixt = 8.821.02 ≈ 8.99 m

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Related Questions

Explain why some materials are better magnetic shields than other ​

Answers

Answer:

Magnetic shielding is the process of reducing the magnetic field in a given space by using a material that can redirect or absorb the magnetic field. Some materials are better magnetic shields than others because of their magnetic properties and their ability to interact with magnetic fields.

Materials that are highly permeable to magnetic fields, such as iron, nickel, and cobalt, are excellent magnetic shields. These materials have a high magnetic susceptibility, which means that they can easily become magnetized in the presence of a magnetic field. When a magnetic field is applied to these materials, the magnetic domains within the material align with the external field, creating a magnetic shield that redirects the field away from the protected space.

Other materials, such as copper and aluminum, are not as effective as magnetic shields because they have low magnetic permeability and low magnetic susceptibility. These materials do not easily become magnetized in the presence of a magnetic field, and therefore cannot redirect or absorb the field as effectively as highly permeable materials.

In summary, the effectiveness of a material as a magnetic shield depends on its magnetic properties, including its permeability and susceptibility. Materials that are highly permeable and susceptible to magnetic fields, such as iron, nickel, and cobalt, are better magnetic shields than materials with low permeability and susceptibility, such as copper and aluminum.

If proteins contain mutations, the proteins often do not maintain the proper shape and are unable to perform their functions. Properly functioning proteins are essential to maintaining healthy organisms.

Which statement describes the overall consequence of proteins containing mutations like those described in the passage?

Answers

proteins with mutations like those mentioned in the paragraph may not be able to carry out their intended tasks, which can have a detrimental impact on the organism's health and ability to survive.

A graph of a relationship is shown.

A graph titled current versus resistance is shown with current on the vertical axis and resistance on the horizontal axis. The graph is a downward curve from top left to bottom right but sits far from the axes.

Which of the following best describes the relationship between the two variables?

Current is directly related to resistance.
Current is inversely related to resistance.
Resistance is directly related to the square of current.
Resistance is inversely related the square of current.

Answers

Answer:

Current is inversely related to resistance.

Explanation:

Based on the given information, we can conclude that the relationship between current and resistance is inverse. This is because the graph is a downward curve, indicating that as resistance increases, current decreases, and vice versa.

In other words, when resistance is high, the flow of current is low, and when resistance is low, the flow of current is high. This inverse relationship between current and resistance is known as Ohm's Law, which states that the current flowing through a conductor is directly proportional to the voltage and inversely proportional to the resistance of the conductor.

Therefore, the best answer choice that describes the relationship between the two variables is:

Current is inversely related to resistance.

Answer:

B. Current is inversely related to resistance.

Explanation:

I took the physics exam

In the classroom demonstration illustrated in V Figure 8.30, a person on a rotating stool holds a rotating bicycle wheel by handles attached to the wheel. When the wheel is held horizontally, she rotates one way (clock-wise as viewed from above). When the wheel is turned over, she rotates in the opposite direction. Explain why this occurs. [Hint: Consider angular momentum vectors.]

Answers

Answer:

People are familiar with F = M a in rectilinear motion

Γ = I α is the corresponding relation in rotational motion.

Also, Γ = R X F gives the direction of the torque

When the wheel is turned over the direction of R is reversed since if it was pointing to the right the lever arm on which the force was acting is now pointing to the left. The gravitational force is still pointing downward  so the direction of Γ has been reversed and the gravitational force is still in the downwards direction  and there is a reversal in the torque acting on the wheel.

One can also think of the wheel having bendable spokes. A force that would turn the wheel and bend the spokes in one direction would have the opposite effect when the wheel was turned over. (A force forcing the spokes backwards would still force the spokes backwards when the wheel is turned over but now the wheel is rotating in the opposite direction)

a. Whats the initial momentum of the ball.

b. what is the final momentum after the ball was hit ?

c. what is the change in momentum of the ball ?

Answers

The change in momentum of the ball is -1.215 kg m/s. This is known as the law of conservation of momentum, which states that the total momentum of an isolated system remains constant if no external forces act upon it.

What is Momentum?

Momentum is a physics concept that describes the quantity of motion an object has. It is defined as the product of an object's mass and velocity. The formula for momentum is p = mv, where p is momentum, m is mass, and v is velocity. Momentum is a vector quantity, meaning it has both magnitude and direction. In the absence of external forces, the total momentum of a system is conserved.

a. The initial momentum of the ball can be calculated using the formula:

p = mv

where p is the momentum, m is the mass, and v is the velocity.

p = (0.045 kg) (27 m/s) = 1.215 kg m/s

Therefore, the initial momentum of the ball is 1.215 kg m/s.

b. The final momentum of the ball can also be calculated using the formula:

p = mv

Assuming the ball comes to a stop after being hit, the final velocity will be 0 m/s. So we get:

p = (0.045 kg) (0 m/s) = 0

Therefore, the final momentum of the ball is 0 kg m/s.

c. The change in momentum of the ball can be calculated using the formula:

Δp = pf - pi

where Δp is the change in momentum, pf is the final momentum, and pi is the initial momentum.

Δp = 0 - 1.215 kg m/s = -1.215 kg m/s

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Two vehicles, a 3,650-kg car and a 9,850-kg truck, are parked in a lot 25.0 meters apart.


Calculate the gravitational force between these two vehicles.
500 kilograms of supplies are added to the truck. Explain whether the gravitational force increases, decreases, or stays the same between the two vehicles.

Remember to identify all data (givens and unknowns), list equations used, show all your work, include units and the proper number of significant digits, and write explanation in complete sentences

Answers

As 500 kg of supplies are added to the truck, the gravitational force between the two vehicles rises from 1.27 106 N to 1.33 106 N.

Does the gravitational force between two objects grow or decrease as their distance decreases?

As a result, when the space between the objects is cut in half, the gravitational force multiplies by four.

The Newton's Law of Universal Gravitation can be used to compute the gravitational force between the two vehicles: F = G * (m1 * m2) / d²

Plugging in the values given in the problem, we get:

F = 6.6743 × 10⁻¹¹ * ((3,650 kg) * (9,850 kg)) / (25.0 m)²

F = 1.27 × 10⁻⁶ N

As a result, there is 1.27 106 N of gravitational force between the two vehicles.

The separation between the two vehicles stays constant. Hence, after entering the updated values, we obtain:

F = 6.6743 × 10⁻¹¹ * ((3,650 kg) * (10,350 kg)) / (25.0 m)²

F = 1.33 × 10⁻⁶ N

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A book of mass M rests on a long table with a piece of paper of mass m=0.1M in between. The coefficient of friction between all surfaces is μ = 0.1. The paper is pulled with horizontal force P (Figure 2.22). 36 (a) What is the minimum value of P required to cause any motion?​

Answers

The minimum force required to move the book and paper system is 0.0098 times the mass of the book.

Calculating the Minimum Force

To determine the minimum force required to move the book and paper system, we need to consider the forces acting on the system. There are two forces acting on the paper: the force of friction and the applied force P. The force of friction is equal to the coefficient of friction times the normal force, which is the weight of the paper. The weight of the paper is 0.1Mg, where g is the acceleration due to gravity.

Ffriction = μN = μ(0.1Mg) = 0.01Mg

To move the paper, the applied force P must be greater than or equal to the force of friction. Therefore:

P ≥ Ffriction

P ≥ 0.01Mg

Substituting the weight of the paper, we get:

P ≥ 0.01M(9.8 m/s²)(0.1) = 0.0098M

Therefore, the minimum force required to move the book and paper system is 0.0098 times the mass of the book.

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What type of system is represented by the image below?


Group of answer choices


Isolated system


Semi-open system


Closed system


Open system

Answers

Answer:

This is an isolated system

Explanation:

By the definition

"Isolated system is a type of system on which no external force acts on"

In the above diagram, the surroundings are not applying any force on the enclosed system

Hence it is an Isolated system (Option 1)

Hope you understand

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The velocity of a train is 112 km/h north. What length of track is required?

Answers

Answer: The length of track required is 500 m.

Explanation: Determine the object's original velocity by dividing the time it took for the object to travel a given distance by the total distance. In the equation V = d/t, V is the velocity, d is the distance, and t is the time.

Brainliest? <33

Artificial gravity is a must for any space station if humans are to live there for an extended length of time. Without artificial gravity, human growth is stunted and biological functions break down.

An effective way to create artificial gravity is through the use of a rotating enclosed cylinder, as shown in the figure. Humans walk on the inside of the outer edge of the cylinder, which has a diameter of =2135 m that is large enough such that its curvature is not readily noticeable to the inhabitants. (The space station in the figure is not drawn to scale.)

Once the space station is rotating at the necessary angular speed to create an artificial gravity of 1, how many minutes would it take the space station to make one revolution?

Answers

The space station would complete one revolution in about 2.2 minutes.

Why would astronauts require artificial gravity to maintain normalcy during lengthy space missions?

It's exciting to consider the use of artificial gravity inside a spacecraft. Many believe it would be a smart way to maintain humans' health on lengthy missions, preventing bone and muscle loss over the roughly 18 months it would take to fly to and from Mars in weightlessness.

The period of rotation T can be calculated using the formula T = 2π/ω, where ω is the angular velocity. Since the artificial gravity is equal to 1g, we can use the formula g = ω²r, where r is the radius of the cylinder. When we solve for, we obtain = sqrt(g/r).

Substituting the given values, we get ω = sqrt(9.81 m/s² / (2135/2 m)) = 0.0477 rad/s.

Using the formula for T, we get T = 2π/ω = 131.9 seconds, or approximately 2.2 minutes.

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As an electron that is placed between the plates below moves toward the positive plate, the force acting on it.​

Answers

As an electron moves towards the positive plate in a uniform electric field between two parallel plates, the distance between the electron and the positive plate decreases, force causing the electric field between them to increase. Hence, the correct option is (2).

In the given diagram, there is a uniform electric field between two parallel plates, with the positive plate on the left and the negative plate on the right. When an electron is placed between the plates and moves towards the positive plate, it experiences a force due to the electric field. The direction of this force is opposite to the direction of the electric field and is given by F = qE, where F is the force, q is the charge of the electron, and E is the electric field. As the electron moves towards the positive plate, the distance between the electron and the positive plate decreases, which means that the electric field between them increases. Therefore, the force acting on the electron also increases according to F = qE. Hence, the correct option is (2) increases.

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A boat is heading due east at speed v when passengers onboard
spot a dolphin swimming due north away from them, relative
to their moving boat. Which of the following must be true of
the dolphin’s motion relative to a stationary observer floating
in the water (choose one)? The dolphin is (a) heading south
of east at a speed greater than v, (b) heading south of west at a
speed less than v, (c) heading north of east at a speed greater
than v, or (d) heading north of west at a speed less than v.

Answers

boat is heading due east at speed v when passengers onboard

spot a dolphin swimming due north away from them, relative

to their moving boat (c) heading north of east at a speed greater than v

The motion of the dolphin relative to a stationary observer floating in the water depends on the velocity of the boat and the velocity of the dolphin relative to the water.

Since the boat is heading due east and the dolphin is swimming due north relative to the moving boat, the dolphin's velocity relative to the boat is due north. Let's call the magnitude of this velocity "d".

The boat's velocity relative to the water is also due east and has a magnitude of "v".

Using the Pythagorean theorem, the magnitude of the dolphin's velocity relative to the stationary observer is:

sqrt([tex]d^2 + v^2)[/tex]

The direction of the dolphin's velocity relative to the stationary observer can be found using trigonometry. The angle between the dolphin's velocity relative to the boat and the boat's velocity relative to the water is 90 degrees, so the tangent of the angle between the dolphin's velocity and the velocity of the boat is d/v.

If we draw a right triangle with sides d, v, and sqrt([tex]d^2 + v^2[/tex]), the angle between the dolphin's velocity and the velocity of the boat is the angle opposite the side d. Using trigonometry, we find that this angle is:

[tex]tan^-1(d/v)[/tex]

The direction of the dolphin's velocity relative to the stationary observer is then 90 degrees plus this angle, since the dolphin's velocity is heading north relative to the boat.

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If soil did not have bacteria in it, then?

A: plants would probably not have enough nitrogen.
B: we probably could not digest our food.
C: plants would probably never die.
D: we could not eat yogurt.

Answers

Answer:

A

Explanation:

The bacteria exists as organic matter

Answer:

a) is probably the answer

Excess electrons are placed on a small lead sphere with a mass of 7.90 g
so that its net charge is −3.15×10−9 C
.
a) Find the number of excess electrons on the sphere.
b) How many excess electrons are there per lead atom? The atomic number of lead is 82, and its molar mass is 207g/mol.

Answers

a) The number of excess electrons on the sphere is 1.97 x 10^10 electrons.

b) There are 0.0000857 excess electrons per lead atom.

Electrostatic problem

a) The elementary charge of a single electron is -1.6 x 10^-19 C. To find the number of excess electrons on the sphere, we can divide the total charge by the charge of a single electron:

-3.15 x 10^-9 C / (-1.6 x 10^-19 C/electron) = 1.97 x 10^10 electrons

b) To find the number of excess electrons per lead atom, we need to first find the number of lead atoms in the sphere. We can use the molar mass of lead and the mass of the sphere to find the number of moles of lead:

7.90 g / 207 g/mol = 0.0382 mol

Next, we can use Avogadro's number to find the number of lead atoms:

0.0382 mol x (6.02 x 10^23 atoms/mol) = 2.30 x 10^22 atoms

Finally, we can divide the number of excess electrons by the number of lead atoms:

1.97 x 10^10 electrons / 2.30 x 10^22 atoms ≈ 0.0000857 excess electrons per lead atom.

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A travel trailer has four running lights that draw 0.5A each and two taillights that draw 1.2A each. What is the current supplied to the trailer when the taillights and running lights are on?​

Answers

The total current supplied to the trailer when the taillights and running lights are on is the sum of the current drawn by the running lights and the current drawn by the taillights.

The current drawn by the running lights is:

I1 = 4 * 0.5 A = 2 A

The current drawn by the taillights is:

I2 = 2 * 1.2 A = 2.4 A

Therefore, the total current supplied to the trailer when the taillights and running lights are on is:

I = I1 + I2 = 2 A + 2.4 A = 4.4 A

Therefore, the current supplied to the trailer when the taillights and running lights are on is 4.4 A.

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A force of 35.0 N is applied to a 15kg block at rest. If the block travels 125m in the first 5.00 seconds the force is applied, what is the average force of friction acting on the block?

Answers

The average force of friction acting on the block over the distance of 125 m is 0.294 N/m

How to find the average force of friction acting on the block?

We can use the equation of motion to calculate the acceleration of the block as follows:

d = 1/2 * a * t^2

Where

d is the distance traveled t is the time taken a is the acceleration

Substituting the given values, we get:

125 m = 1/2 * a * (5 s)^2

Solving for a, we get:

a = 10 m/s^2

The net force acting on the block is equal to the product of its mass and acceleration, i.e.:

F_net = m * a = 15 kg * 10 m/s^2 = 150 N

Since the block is at rest initially, the force of static friction must balance the applied force of 35.0 N, i.e.:

friction = 35.0 N

Once the block starts moving, the force of kinetic friction opposes the motion and has a constant magnitude given by:

friction = μ * N

Where

μ is the coefficient of kinetic friction N is the normal force

The normal force is equal to the weight of the block, i.e.:

N = m * g = 15 kg * 9.81 m/s^2 = 147.15 N

Substituting the given coefficient of friction μ = 0.25, we get:

friction = 0.25 * 147.15 N = 36.79 N

Therefore, the average force of friction acting on the block over the distance of 125 m is:

average friction = friction / distance = 36.79 N / 125 m = 0.294 N/m

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The delivery track is at rest on a horizontal road .It has four wheels and the distance between it's front and rear axle is 2.3 m .Workers have loaded the truck in such a way that it;s center of gravity(cg) is only slightly (0.63) forward of the rear axle.The total mass of the truck and its contents is 8010 kg.Finf the magnitude of the total vertical force exerted by the ground on the rear wheels of the truck.

Answers

Answer:

The magnitude of the total vertical force exerted by the ground on the rear wheels of the truck is 62271.86 N

Explanation:

To find the magnitude of the total vertical force exerted by the ground on the rear wheels of the truck, we need to consider the static equilibrium condition of the truck.

The weight of the truck and its contents acts downwards through its center of gravity (cg) and the normal force exerted by the ground acts upwards. The normal force is distributed between the front and rear axles of the truck according to the position of the cg.

Let F_R be the magnitude of the total vertical force exerted by the ground on the rear wheels of the truck.

Then, from the static equilibrium condition:

Sum of vertical forces = 0

F_R + (8010 kg)(9.81 m/s^2) - F_F = 0

where F_F is the magnitude of the total vertical force exerted by the ground on the front wheels of the truck.

The distance between the cg and the rear axle is given as 0.63(2.3 m) = 1.449 m.

The distance between the cg and the front axle is therefore (2.3 m - 1.449 m) = 0.851 m.

We can assume that the weight is evenly distributed between the four wheels of the truck. Therefore, the weight supported by each wheel is:

(8010 kg)(9.81 m/s^2)/4 = 19653.45 N

Using moments about the rear axle, we get:

F_F(0.851 m) - F_R(1.449 m) = 0

Solving these two equations simultaneously, we get:

F_R = 62271.86 N

Therefore, the magnitude of the total vertical force exerted by the ground on the rear wheels of the truck is 62271.86 N.

The magnitude of the total vertical force exerted by the ground on the rear wheels of the truck is approximately 62,203 N.

What is static equilibrium?

Static equilibrium refers to the state of an object at rest when the net force acting on it is zero. In other words, when an object is in static equilibrium, it is not accelerating in any direction and all forces acting on it are balanced.

The principle of static equilibrium states that the sum of all forces acting on an object in static equilibrium is zero, and the sum of all torques (rotational forces) acting on the object is also zero. This principle can be applied to solve problems involving the forces and torques acting on objects at rest.

Static equilibrium is important in many areas of physics and engineering, including structural analysis, civil engineering, and mechanical engineering. Understanding static equilibrium is essential for designing structures and machines that can support loads without collapsing or breaking, and for analyzing the stability of systems in various applications.

Here in the Question,

To find the magnitude of the total vertical force exerted by the ground on the rear wheels of the truck, we need to analyze the forces acting on the truck and apply the principle of static equilibrium, which states that the sum of all forces acting on an object in static equilibrium is zero.

The forces acting on the truck are the weight of the truck and its contents and the reaction forces from the ground acting on each of the four wheels. The weight of the truck and its contents can be represented as a single force acting vertically downwards at the center of gravity (cg) of the truck.

Since the truck is at rest on a horizontal road, the reaction forces from the ground acting on the wheels must balance the weight of the truck and its contents in both the horizontal and vertical directions. The horizontal components of the reaction forces cancel each other out, since the truck is at rest and not moving in the horizontal direction.

To find the vertical forces, we can first find the weight of the truck and its contents:

w = m*g

where w is weight, m is mass, and g is the acceleration due to gravity (9.81 m/s^2).

Substituting the given values, we get:

w = 8010 kg * 9.81 m/s^2 = 78,419.1 N

Next, we can find the position of the center of gravity (cg) relative to the front and rear axles of the truck:

d = L * (m1 - m2) / m

where d is the distance from the cg to the rear axle, L is the distance between the front and rear axles (2.3 m), m1 is the mass of the truck and contents behind the cg, m2 is the mass of the truck and contents in front of the cg, and m is the total mass of the truck and contents.

Substituting the given values, we get:

d = 2.3 m * (8010 kg * 0.63 - 8010 kg * 0.37) / 8010 kg = 0.743 m

Now, we can find the magnitudes of the vertical forces acting on the rear and front wheels of the truck using the principle of static equilibrium. Since the truck is not moving vertically, the sum of the vertical forces acting on it must be zero. Therefore:

Frear + Ffront = w

where Frear is the vertical force exerted by the ground on the rear wheels, Ffront is the vertical force exerted by the ground on the front wheels, and w is the weight of the truck and its contents.

The rear wheels support the weight of the truck and its contents, as well as a portion of the weight shifted forward of the rear axle due to the position of the cg. The front wheels support only a portion of the weight shifted backward of the front axle. To find the magnitudes of the vertical forces, we can use the following equations:

Frear = (m1/m)*w

Ffront = (m2/m)*w

where m1 is the mass of the truck and contents behind the cg, m2 is the mass of the truck and contents in front of the cg, and m is the total mass of the truck and contents.

Substituting the given values and using the value of d found earlier, we get:

Frear = (8010 kg * 0.63 / 8010 kg)*78,419.1 N = 62,202.7 N

Ffront = (8010 kg * 0.37 / 8010 kg)*78,419.1 N = 36,216.4 N

The magnitude of the total vertical force exerted by the ground on the rear wheels of the truck is:

Frear = 62,202.7 N ≈ 62,203 N

Therefore, the magnitude of the total vertical force exerted by the ground on the rear wheels of the truck is approximately 62,203 N.

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An object is weight with spring balance in air and then totally with water, the reading on the balance are 0.98N and 0.88N repectively. Calculate the desity of the object.

Answers

Answer:

Weight of object = .98 N

Buoyant force equals weight of water displaced = .10 N

Weight of object - weight of water displaced = .98 - .10 = .88 N

Density = Weight of object / Weight of equivalent weight of water

ρ = .98 / .10 = 9.8         specific gravity of object

Since the density of water = 1 g / cm^3

the density of the object is 9.8 g / cm^3      (9800 kg/m^3)

A student is using two circuits to investigate power consumption. She connects two identical light bulbs in series in one circuit and in parallel in the second circuit. What should she measure to calculate which configuration uses more power?
Responses
A The resistance of the bulbs and the potential difference of the battery.The resistance of the bulbs and the potential difference of the battery.
B The current flowing into each bulb and the potential difference across each bulb.The current flowing into each bulb and the potential difference across each bulb.
C The current flowing out of the battery and the resistance of each bulb.The current flowing out of the battery and the resistance of each bulb.
D The potential difference of the battery and the resistance of the battery.

Answers

The potential difference across the each bulb and the current entering each bulb.

What occurs if you connect two light bulbs in series?

Each bulb in a straightforward parallel circuit receives the entire battery power. This is explains why the parallel circuit's lights will shine stronger than the series circuit's. The parallel circuit also has the benefit of maintaining an electricity even if one loop is disconnected.

When are two identical bulbs linked in both series and parallel?

The same brightness is produced when two identical bulbs are linked in parallel as it is when they are connected in a series, which is why.

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Hei can someone help me with homework

Answers

Approximately 3.16 x 10¹² machines at a distance of 5 m are needed to exceed 115 dB at a distance of 5 m.

What is decibel?

Decibel (dB) is a unit of measurement that is used to express the relative intensity of sound or the ratio of two power quantities. It is a logarithmic unit that compares the power level of a sound to a reference level.

The decibel scale is logarithmic because the human ear perceives changes in sound intensity logarithmically. Therefore, the use of the decibel scale allows us to express a wide range of sound intensities using a more manageable numerical range.

a) To calculate the volume in decibels, we can use the given formula:

L = 10 lg(I/I0)

First, let's calculate the intensity of the noise:

1 kW = 1000 W

0.01% of 1000 W = 0.01 x 1000 W = 10 W

Area of a sphere with a radius of 5 m = 4πr² = 4π(5 m)² = 314.16 m²

Therefore, the intensity of the noise at a distance of 5 m from the machine is:

I = 10 W / 314.16 m² = 0.0318 W/m²

Now we can use the formula to calculate the volume:

L = 10 lg(I/I0) = 10 lg(0.0318 W/m² / 10⁻¹⁶ W/cm²) = 105 dB

Therefore, the volume of the noise at a distance of 5 m from the machine is 105 dB.

b) To calculate the number of machines needed to exceed 115 dB, we can use the formula in reverse:

L = 10 lg(I/I0)

115 dB = 10 lg(I/I0)

11.5 = lg(I/I0)

I/I0 = 10¹¹°⁵

Now we can calculate the total intensity needed at a distance of 5 m from the machines:

I_total = 10¹¹°⁵ W/m²

For one machine, the intensity of the noise at a distance of 5 m is:

I_machine = 10 W / 314.16 m² = 0.0318 W/m²

So the number of machines needed is:

N = I_total / I_machine = 10¹¹°⁵/ 0.0318 = 3.16 x 10¹²

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The characteristic spectral lines for the molybdenum element occur at lamda= 6.4 x 10^-11m and lamda= 7.5 x 10^-11m. What is the minimum potential difference needed to accelerate electrons in an x-ray tube to produce both of these lines

Answers

Answer:

E = h ν     energy of wave of frequency ν

ν = c / λ      frequency of wave in terms of wavelength

E = h c / λ

Since λ = 6.4E-11 is the shortest wavelength this corresponds to the highest potential needed

E = 6.63E-34 * 3.00E8 / 6.4E-11 = 3.11E-15 joules

V = E / q = 3.11E-15 / 1.6E-19 = 19,400 volts

Note (E above is energy required and not the electric field)

A shuffleboard disk is accelerated to a speed of 5.6 m/s and released. If the coefficient of kinetic friction between the disk and the concrete court is 0.34, how far does the disk go
before it comes to a stop? The courts are 14.3 m long.

Answers

The disk must have traveled a distance of 4.52 meters before coming to a stop.

Coefficient of Friction

We can use the equation for the distance traveled by an object under constant acceleration:

d = (v_f^2 - v_i^2) / (2 * a)

where d is the distance traveled, v_f is the final velocity (in this case, zero), v_i is the initial velocity (in this case, 5.6 m/s), and a is the acceleration.

The acceleration of the disk is determined by the force of friction, which is given by:

F_friction = friction_coefficient * F_normal

where F_normal is the normal force, which is equal to the weight of the disk, and the friction coefficient is given as 0.34.

We can find the weight of the disk by using the formula:

F_gravity = m * g

where F_gravity is the force of gravity, m is the mass of the disk, and g is the acceleration due to gravity (taken as 9.8 m/s^2).

Let's assume the mass of the disk is 0.5 kg. Then:

F_gravity = 0.5 kg * 9.8 m/s^2 = 4.9 N

So the normal force on the disk is also 4.9 N.

Now we can find the force of friction:

F_friction = 0.34 * 4.9 N = 1.67 N

The acceleration of the disk is given by:

a = F_friction / m = 1.67 N / 0.5 kg = 3.34 m/s^2

Plugging this into the equation for distance, we get:

d = (0 - (5.6 m/s)^2) / (2 * (-3.34 m/s^2)) = 4.52 m

Therefore, the disk travels 4.52 meters before coming to a stop, which is less than the length of the court (14.3 m).

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What is an universal stock printer

Answers

Answer:

The first mechanical means for transmitting real-time stock market data from exchange floors to brokers and investors across the country.

Explanation:

The figure below (Figure 1) illustrates an Atwood's machine. Let the masses of blocks A
and B be 5.50 kg and 2.00 kg, respectively, the moment of inertia of the wheel about its axis be 0.400 kg⋅m2 and the radius of the wheel be 0.110 m.

A. Find the linear acceleration of block A if there is no slipping between the cord and the surface of the wheel.

B. Find the linear acceleration of block B if there is no slipping between the cord and the surface of the wheel.

C. Find the angular acceleration of the wheel C if there is no slipping between the cord and the surface of the wheel.

D. Find the tension in left side of the cord if there is no slipping between the cord and the surface of the wheel.

E. Find the tension in right side of the cord if there is no slipping between the cord and the surface of the wheel.

Answers

A.The linear acceleration of block A is [tex]a = -3.42 m/s^2[/tex]

B.The linear acceleration of block B is [tex]a = 3.42 m/s^2[/tex]

C.The angular acceleration of the wheel c  is [tex]a= -31.09 rad/s^2[/tex]

D. The tension in the left side is T = -210.83 N

E.The tension in the right side is T = -58.75 N

A. The linear acceleration of block A can be calculated using the equation for the acceleration of an Atwood's machine:

[tex]a =\frac{ (m2 - m1)g}{ (m1 + m2)}[/tex]

Substituting the given values, the linear acceleration of block A is:

[tex]a =\frac{ (2.00 kg - 5.50 kg) 9.81 m/s^2 }{ (5.50 kg + 2.00 kg)}\\a = -3.42 m/s^2[/tex]

B. The linear acceleration of block B can be calculated using the same equation:

[tex]a =\frac{ (m2 - m1)g}{ (m1 + m2)}[/tex]

Substituting the given values, the linear acceleration of block B is:

[tex]a = \frac{(2.00 kg - 5.50 kg) 9.81 m/s^2 }{ (5.50 kg + 2.00 kg)}\\a = 3.42 m/s^2[/tex]

C. The angular acceleration of the wheel can be calculated using the equation:

[tex]a = \frac{a}{r}[/tex]

where α is the angular acceleration, a is the linear acceleration and r is the radius of the wheel.

Substituting the given values and the value for the linear acceleration of block A, the angular acceleration of the wheel is:

[tex]a = \frac{-3.42 m/s2 }{ 0.110 m}[/tex]

[tex]a= -31.09 rad/s^2[/tex]

D. The tension in the left side of the cord can be calculated using the equation:

T = m1a + m1rα

Substituting the given values, the tension in the left side of the cord is:

T = 5.50 kg (-3.42 m/s2) + 5.50 kg (0.110 m) (-31.09 rad/s2)

T = -210.83 N

E. The tension in the right side of the cord can be calculated using the equation:

T = m2a + m2rα

Substituting the given values, the tension in the right side of the cord is:

T = 2.00 kg (3.42 m/s2) + 2.00 kg (0.110 m) (-31.09 rad/s2)

T = -58.75 N

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A 18.0 kg block slides down an inclined plane (angle of inclination is 36 degrees). If the coefficient of kinematic friction is 0.55, what is the acceleration of the block? Consider g = 9.8 m/s². Express your answer correct to 2 decimal places. Add the appropriate unit(s).​

Answers

Answer:

Explanation:

The force of gravity acting on the block can be resolved into two components, one parallel to the incline and one perpendicular to the incline. The perpendicular component is balanced by the normal force of the incline, and the parallel component is opposed by the force of friction. The force of friction is given by:

F_friction = coefficient_of_friction * F_norm

where F_norm is the normal force of the incline. The normal force is equal in magnitude and opposite in direction to the perpendicular component of the force of gravity, which is:

F_perpendicular = m * g * cos(theta)

where m is the mass of the block, g is the acceleration due to gravity, and theta is the angle of inclination.

The parallel component of the force of gravity is:

F_parallel = m * g * sin(theta)

The net force acting on the block is:

F_net = F_parallel - F_friction

Using Newton's second law, F = m * a, we can solve for the acceleration of the block:

a = F_net / m

Substituting the expressions for F_parallel and F_friction, we get:

a = [m * g * sin(theta) - coefficient_of_friction * m * g * cos(theta)] / m

Simplifying, we get:

a = g * [sin(theta) - coefficient_of_friction * cos(theta)]

Substituting the given values, we get:

a = 9.8 m/s^2 * [sin(36°) - 0.55 * cos(36°)] = 6.43 m/s^2

Therefore, the acceleration of the block is 6.43 m/s^2.

A circuit with total resistance of 20Ω has a potential difference of 12V and current of 1.2A. calculate energy done in 5 minutes​

Answers

To calculate the energy done in 5 minutes, we need to first calculate the power dissipated by the circuit. We can use the formula:

Power = Voltage * Current

Plugging in the values we have:

Power = 12V * 1.2A
Power = 14.4W

Next, we can use the formula for energy:

Energy = Power * time

Plugging in the values we have:

Energy = 14.4W * (5 minutes * 60 seconds/minute)
Energy = 4320 Joules

Therefore, the energy done by the circuit in 5 minutes is 4320 Joules.

4. Enclosing a certain mass of air in a container and then removing as much air as technically possible creates a
A. partial vacuum.
B. perfect vacuum.
C. barometric press.
D. hydraulic press.

Answers

A. Partial vacuum

Enclosing a certain mass of air in a container and then removing as much air as technically possible results in the creation of a partial vacuum. While it is possible to create a near-perfect vacuum, it is technically impossible to remove all of the air molecules from a container. A barometric press is a device used to measure atmospheric pressure, and a hydraulic press is a machine that uses fluid pressure to compress or shape materials.

3.A Physics professor sets up an experiment to determine the height of a building in his experiment he found that a putty ball, A, released from the top of a building, X, Covers the last 2 min the air in 0,125 s. ignore the effects of air resistance Putty Ball PA 2,0 m Ground Z 3.1 State the value of the "change in velocity per second" for the putty ball 3.2 The experiment is repeated using a putty ball B of TWICE the mass of putty ball A will the acceleration of balt B be GREATER THAN, EQUAL TO or LESS THAN the acceleration of ball A? Give a reason for the answer 4.What can be done to ensure the reliability of results? (0) (1)​

Answers

3,1 The value of the "change in velocity per second" for the putty ball is 256 m/s².

3.2 The putty ball's mass has no effect on its acceleration, but it does have an effect on its weight and momentum.

4 The experiment can be repeated several times to ensure the reliability of the results.

How to calculate change in velocity?

3.1 The "change in velocity per second" for the putty ball can be calculated using the formula:

change in velocity = (final velocity - initial velocity) / time

In this case, the putty ball A is released from rest, so its initial velocity is zero. Its final velocity can be calculated using the equation of motion:

distance = 0.5 x acceleration x time²

where distance is the height of the building, and time is the time it takes for the ball to fall to the ground. We are given that the distance is h and the time is 2 minutes or 120 seconds. Using these values, we can solve for the acceleration:

h = 0.5 × a × t²

a = 2h / t²

Substituting h = XZ = 2.0 m and t = 0.125 s:

a = 2 x 2.0 / (0.125)² = 256 m/s²

Now, calculate the change in velocity per second:

change in velocity = (final velocity - initial velocity) / time

= (acceleration x time) / time

= acceleration

= 256 m/s²

Therefore, the value of the "change in velocity per second" for the putty ball is 256 m/s².

3.2 The acceleration of putty ball B will be equal to the acceleration of putty ball A. This is because the acceleration of an object is determined only by the force acting on it and its mass, according to Newton's second law of motion (F = ma). In this case, both putty balls are subject to the same gravitational force and experience the same air resistance (which is negligible), so their acceleration will be the same. The mass of the putty ball does not affect its acceleration, but it does affect its weight and momentum.

4 To ensure the reliability of the results, the experiment can be repeated multiple times, and the results can be compared and analyzed for consistency. The experiment can also be performed under controlled conditions, such as in a vacuum, to eliminate the effects of air resistance. The equipment used in the experiment should be calibrated and properly maintained to ensure accurate measurements. The experimenter should also take care to minimize sources of error, such as parallax error when reading the height of the building, and record all measurements and observations accurately.

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When a parachute opens, the air exerts a large drag
force on it. This upward force is initially greater than
the weight of the sky diver and, therefore, slows him down. The mass of the sky diver is 82.0 kg and the drag force has a magnitude of 850 N. What are the
magnitude and direction of his acceleration?

Answers

The skydiver is accelerating upward with an upward orientation with an acceleration of 0.556 m/s².

What is acceleration?

The pace at which a speed changes over time is called acceleration. In other words, it is a measurement of how quickly an object's velocity alters. It is a vector quantity with a direction and magnitude.

Finding the net force affecting the skydiver can be our first step. The vector sum of all forces acting on the skydiver is known as the net force. Weight and drag force are the two forces at play here as they affect the skydiver.

The skydiver's weight is determined by:

Weight= mass x acceleration due to gravity

Weight: 82.0 kg x 9.81 m/s² (acceleration due to gravity)

Weight= 804.42 N

The skydiver is under the following net force:

net force = weight - drag force

850 N - 804.42 N = Net force

45.58 N of net force (upwards)

The skydiver will accelerate upwards since the net force is upward. The magnitude of the acceleration can be determined by applying Newton's second law of motion:

Net force is calculated as follows:

Net force = mass x acceleration

45.58 N = 82.0 kg x acceleration

Acceleration = 0.556 m/s².

As a result, the skydiver is accelerating upward with an upward orientation with an acceleration of 0.556 m/s².

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in the unit vector notation, what is the net torque about the origin on a flea located at coordinates (0, -4.0m, 5.0m) qhwn forces F1=(3.0N)k^ and F2= (-2.0N)j^ act on the flea>=>

Answers

Answer:

i hope this is what you are looking for

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