describe periscope. ​

The acceleration of the cart at this instant is calculated to be 5.17 m/s² to the right.

Newton's second law explains that acceleration of any object is directly related to net force and inversely related to the mass.

To determine the acceleration of the cart, we need to calculate the net force acting on it.

The net force is the vector sum of the two forces:

Net force = Force a + Force b = 77 N to the right - 15 N to the left = 62 N to the right

Using Newton's second law, F = ma, where F is the net force and m is the mass of the cart, we can calculate the acceleration:

a = F/m = 62 N / 12 kg = 5.17 m/s

Therefore, the acceleration of the cart at this instant is 5.17 m/s² to the right.

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Snell's Law, which states that the ratio of the indices of refraction of the two media is equal to the ratio of the sines of the angles of incidence and refraction, can be used to resolve this issue:

n1 sin - 1 = n2 sin - 2 where n1 is the initial medium's index of refraction (air) The second medium's index of refraction is given by n2 (water Angle of incidence = 1 Angle of refraction = 2 (what we want to find) With the values from the problem substituted, we obtain: 1.00 sin 34° = 1.33 sin θ₂ Solving for 2 gives us: 1.00 sin 34° / 1.33 25.9° = 2 = sin In light of this, the angle of refraction is roughly 25.9°. According to Snell's law, the angle of refraction of a light ray moving from air (n=1.0) into water (n=1.33) at an angle of incidence of 34° is roughly 23.8°.

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It is currently thought that moons typically do not form near (a) any planets of binary star systems.

Binary star systems are systems in which two stars orbit around a common center of mass. The function of binary star systems is to provide astronomers with a way to measure the properties of stars more accurately than can be done for single stars.

By observing binary star systems, astronomers can measure the masses, sizes, and luminosities of the stars involved. This information can be used to test theoretical models of stellar evolution and to gain insights into the physical processes that occur in stars.

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The potential due to a ring of charge at a point on the z-axis a distance z away from the center of the ring is given by the equation:

Vring = kQ / √(R^2 + z^2)

where k is Coulomb's constant, Q is the charge on the ring, R is the radius of the ring, and z is the distance from the center of the ring to the observation point.

If the ring behaves like a point particle of charge Q at the origin, the potential at the same observation point on the z-axis would be:

Vparticle = kQ / z

To find the distance z where these two potentials agree to within 5%, we can set up the following equation:

|Vring - Vparticle| / Vparticle ≤ 0.05

Substituting the expressions for Vring and Vparticle and simplifying, we get:

|√(R^2 + z^2) - z| / z ≤ 0.05

Squaring both sides and rearranging, we get:

(R^2 / z^2) ≤ 0.0025

Taking the square root of both sides, we get:

R / z ≤ 0.05

Solving for z, we get:

z ≥ R / 0.05

Therefore, the observation point on the +z axis must be at a distance z of at least R / 0.05 from the center of the ring, where R is the radius of the ring, for the ring to behave like a point particle of charge Q at the origin to within 5%.

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Answer:

The mass of any amount of a solid, liquid, or gas relative to its volume is called density.

Answer: The mass of any amount of a solid, liquid, or gas relative to its volume is called density.

The coffee can must be placed at least 0.2 meters below the final horizontal position, which would be about 3.2 meters from the base of the table. This can be proved by taking both the horizontal and vertical components of motion.

We can use both the equations for horizontal and vertical motion. Since the ball is launched horizontally, only the horizontal equation is needed:

Horizontal Motion: xf = xi + vxt

where:
xf = final horizontal position
xi = initial horizontal position
vx = horizontal velocity
t = time elapsed

Since we know the initial horizontal position, the horizontal velocity, and the time elapsed, we can calculate the final horizontal position:

xf = 0 + 8.0 m/s × 2.5 s = 20 m

Now, the coffee can is 20 cm tall, which is equal to 0.2 m. The initial vertical position of the ball is 1.0 m. The final vertical position will be the same as the initial vertical position, since the ball is not subject to any vertical acceleration. Therefore, the coffee can must be placed 0.2 m below the final horizontal position, which would be 3.2 m from the base of the table.

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According to NASA, the sun makes up approximately 99.86% of the mass of the solar system. Most of the mass in the solar system is concentrated in the sun.

The majority of the mass in the solar system is located in the Sun. Although the planets contain a significant amount of mass, the Sun accounts for over 99% of the solar system's entire mass. The planets, moons, asteroids, and other bodies in the solar system are insignificant in comparison to the Sun.

The sun contributes 99.86 percent of the total mass of the solar system. The source of this information is the NASA website.According to NASA, the Sun makes up 99.86 percent of the entire mass of the solar system. The rest of the 0.14 percent is split up between all of the planets, dwarf planets, asteroids, comets, and other celestial bodies in the solar system. Hence, we can say that the sun is the main contributor to the total mass of the solar system.

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As a charged helium balloon moves upward, the electrical potential decreases and the balloon's electrical potential energy decreases. The correct option is D.

Electrical potential is the potential energy difference between two charges at a certain distance from one another. Electrical potential is calculated using the formula for electric potential energy, which is determined by the distance between two charges and the magnitude of the charges.

Electrical potential energy is the potential energy stored between two charged particles separated by a distance. Electrical potential energy is calculated using the formula U=kQ1Q2/r, where k is Coulomb's constant, Q1 and Q2 are the charges, and r is the distance between the two charged particles. The SI unit of electric potential energy is joules (J).

Now coming back to the main question, if you charge a helium balloon on your hair and then release it, as the balloon moves upward the electrical potential and the balloon's electrical potential energy decreases, decreases. Hence, option D, decreases, decreases is the correct answer.

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The net charge of a solid plastic cylinder of radius 2.33 cm and length 6.30 cm, carrying a uniform volumetric charge density of 540 nc/m3, is equal to 0.0583 nC (nanocoulombs)

To determine the net charge of a cylinder, the formula Q =ρV has to be used where Q is the net charge, ρ is the uniform volumetric charge density, and V is the volume of the cylinder.

ρ is given as 540 nc/m³.

V is calculated using the formula

V = πr²h

where r is the radius and h is the length.

π is approximated to be 3.14.  

h is given as 6.30cm

r is 2.33cm

so the calculation for V becomes;

V = πr²h

V = 3.14 x 2.33² x 6.3

V = 108.02 cm³ or 108.02 x 10⁻⁶ m³.

Substitute the values of Q and V into the equation and solve for Q:

Q = ρVQ = 540 nc/m³ x 108.02 x 10⁻⁶ m³

Q = 0.0583 nc (to 3 decimal places)

Therefore the net charge of this cylinder, in nc (nanocoulombs) is 0.0583nc.

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d) less massive than the Sun. A protostar that will eventually turn into a star like the Sun is formed from a cloud of gas and dust that collapses under its own gravity.

As it collapses, it heats up and becomes more luminous, but it is still much smaller and less massive than the Sun. Over time, the protostar will continue to contract and heat up until it reaches a point where the conditions in its core are sufficient to initiate nuclear fusion. A protostar that will eventually turn into a star like the Sun is formed from a cloud of gas and dust that collapses under its own gravity.  a protostar that will eventually turn into a star like the Sun is significantly  At this point, it will become a true star, but it will still be smaller and less massive than the Sun.

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Lions obtain carbon they need by eating the animals that have carbon-based molecules stored in their bodies.

When lions consume flesh of other animals, they break down organic molecules, such as carbohydrates, proteins, and fats, that are present in the animal's body. These organic molecules contain carbon atoms that are used by lion to build its own body and obtain energy.

Breathing in carbon dioxide from the atmosphere would not be a significant source of carbon for lions, as they do not have a mechanism to extract carbon from carbon dioxide. Similarly, absorbing carbon-based molecules through their skin from soil or drinking water that contains carbon dioxide would not be effective way for lions to obtain carbon, as these sources are not available in large enough quantities to support lion's needs.

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Answer:

Explanation:

by eating animals that have carbon-based molecules stored in their bodies.

hope this helps good day

Both the initial amount and the kind of gas play a role.  However, the pressure and the quantity of gas present also have a role in this relationship.

Charles' Law states that a gas's volume is directly proportionate to its temperature. However, the pressure and the quantity of gas present also have a role in this relationship. Hence, we would need to know the starting volume, pressure, and number of moles of a gas sample in order to calculate its volume at 50.0 °C. The type of gas would also be a role in deciding its final volume at 50.0 °C because different gases behave differently at various temperatures.  Ideal gas perfectly obeys the gas law. Thus, the correct answer to the question is Ideal gas.

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A primary pollutant interacts with a part of the atmosphere and becomes a secondary pollutant.

No additional chemical reactions are required for a primary pollutant to interact with the atmosphere and become a pollution. Carbon monoxide, sulfur dioxide, nitrogen oxides, and particulate matter are a few examples of main pollutants. A secondary pollutant, on the other hand, is not immediately released into the atmosphere; instead, it develops as a result of chemical interactions between primary pollutants and other atmospheric constituents. Ozone, sulfuric acid, and nitric acid are a few examples of secondary pollutants. the following is the appropriate response to the stated question: A secondary pollutant is created when a primary pollutant interacts with a component of the atmosphere.

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b) somewhere within the object. The center of mass of an irregular object is not always at its geometrical center but depends on its mass distribution, as in a non-uniform hammer where it is closer to the heavier end.

An object's center of mass is the location where all of its mass may be said to be concentrated. The center of mass may not lie in the geometric center of irregular objects with non-uniform mass distributions. Instead, it is influenced by the distribution of mass, with heavier parts having a greater impact on the location of the center of mass than lighter regions. In the case of a hammer, the heavier end will have a greater impact on the location of the center of mass than the lighter end. A key idea in physics is the center of mass since it has an impact on an object's motion and stability.

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The total kinetic energy of the bowling ball of mass 7.2 kg and radius 10 cm rolling without slipping down a lane at 2.6 m/s  is 28.906 J.

We need to use the formula for the total kinetic energy of a rotating object, which is given by:

K = (1/2) Iω² + (1/2) mv²

where K is the total kinetic energy, I is the moment of inertia of the object, ω is the angular velocity of the object, m is the mass of the object, and v is the linear velocity of the object. Since the bowling ball is rolling without slipping, we can relate the linear velocity and the angular velocity as follows:

v = rω

where r is the radius of the bowling ball. Therefore, we can rewrite the formula for the total kinetic energy as:

K = (1/2) I (v/r)² + (1/2) mv²

Now, we need to find the moment of inertia of the bowling ball. The moment of inertia of a solid sphere about its diameter is given by:

I = (2/5) mr²

where r is the radius of the sphere and m is the mass of the sphere. Therefore, we can substitute the values given in the problem to get:

I = (2/5) (7.2 kg) (0.1 m)²
I = 0.0288 kg m²

Now, we can substitute all the values in the formula for the total kinetic energy to get:

K = (1/2) (0.0288 kg m²) (2.6 m/s)²/ (0.1 m)² + (1/2) (7.2 kg) (2.6 m/s)²
K = 3.9936 J + 24.912 J
K = 28.906 J

Therefore, the total kinetic energy of the bowling ball is 28.906 J.

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The slope (θc) at the free end is 0.0073 radians and the deflection (Vc) at the free end is 0.0050 meters.

The slope (θc) at the free end of the cantilever beam and loading shown can be determined using superposition. The flexural rigidity (EI) of the beam is assumed to be constant.

Using superposition, the slope (θc) at the free end can be calculated by taking the sum of the individual slopes resulting from the two loadings:

θc = θPL + θR

The individual slopes for each loading are:

θPL = PL/EI and θR = R/2L

Substituting these into the equation above gives:

θc = (PL/EI) + (R/2L)

The deflection (Vc) at the free end can be determined similarly, by taking the sum of the individual deflections resulting from the two loadings:

Vc = VPL + VR

The individual deflections for each loading are:

VPL = PL2/(2EI) and VR = R2/(2L)

Substituting these into the equation above gives:

Vc = (PL2/(2EI)) + (R2/(2L))

Therefore, the slope (θc) at the free end is 0.0073 radians and the deflection (Vc) at the free end is 0.0050 meters.

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The sound level produced by a chorus of 34 such singers (all singing at the same intensity at approximately the same distance as the original singer) is 80.7 dB (rounded to one decimal place).

Sound intensity level or sound pressure level, measured in decibels (dB), is a logarithmic measure of the pressure of a sound relative to a reference value. The reference value used for sound intensity measurements is usually 10⁻¹² W/m². When the sound intensity doubles, the sound level increases by 3 dB.

Therefore, to calculate the sound level produced by a chorus of 34 such singers (all singing at the same intensity at approximately the same distance as the original singer), use the formula below.

L = 10 log (I/I₀) + 10 log (n)dB

where

Thus,

L = 10 log (I/I₀) + 10 log (n)dBL = 10 log (10⁻¹²/10⁻¹²) + 10 log (34) dB

L = 10 log (1) + 10 log (34) dBL = 0 + 15.1 dBL = 15.1 dB (rounded to one decimal place)

L = 62 + 15.1 dBL = 80.7 dB

Since the original sound level produced by one singer is 62 dB and the sound level produced by a chorus of 34 singers is 80.7 dB, the sound level produced by the chorus of 34 singers is 80.7 dB (rounded to one decimal place).

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Explanation:

The work of friction will be   Fn * .8 x d

Fn = ( m1 + m2) g = ( 980+2500 kg) (9.81) = 34139 N

Work f friction = Ffriction x d

                           = 34139 N  * .8 x 2.7 m = 73740 J

this equals the sports car's KE

73740 J = 1/2 mv^2

73740 = 1/2 ( 980)(v^2 )        v = 12.3 m/s

The total work done on a particle is given by the formula:

W = (1/2)mvf^2 - (1/2)mvi^2

where m is the mass of the particle, vi is the initial velocity, and vf is the final velocity.

For vi = 5 m/s and vf = 2 m/s, the final velocity is less than the initial velocity, so the total work is positive.

For vi = -2 m/s and vf = -5 m/s, the final velocity is less than the initial velocity, so the total work is positive.

For vi = -5 m/s and vf = 2 m/s, the final velocity is greater than the initial velocity, so the total work is negative.

For vi = 5 m/s and vf = -2 m/s, the final velocity is greater than the initial velocity, so the total work is negative.

For vi = -5 m/s and vf = -2 m/s, the final velocity is less than the initial velocity, so the total work is positive.

Therefore, the total work done on the particle is positive for vi = 5 m/s and vf = 2 m/s, and for vi = -2 m/s and vf = -5 m/s.

In order for work to be done, there must be a displacement of the object in the direction of the force applied. If the force and displacement are perpendicular, then no work is done.

Work can be positive, negative, or zero, depending on the direction of the force and the displacement. Positive work is done when the force and the displacement are in the same direction, negative work is done when they are in opposite directions, and zero work is done when there is no displacement or when the force and displacement are perpendicular.

Work is a transfer of energy, and as such it can change the kinetic energy, potential energy, or both of an object.

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. Additionally, Star 1 has prominent hydrogen lines, indicating a lower temperature than Star 2. Therefore, the statements can be sorted into the true and false bins as indicated above.

True: Star 1 has a longer lifetime than Star 2; Star 2 is bluer than Star 1; Star 2 has a lower mass than Star 1; Star 1 has prominent hydrogen lines.

False: Star 2 has a higher luminosity than Star 1; Star 2 is cooler than Star 1.

The spectra of the two main sequence stars illustrate some differences between the two stars. Star 1 is on the left and has a longer lifetime than Star 2, which is on the right. This is evident from the intensity axes that are not on the same scale. Star 2 has a lower mass than Star 1, is bluer than Star 1, and has a lower luminosity

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The momentum of the bouncing ball varies in accordance with the conservation of momentum concept. The ball bounces less than its initial height as well because heat, friction, and air resistance all deplete energy.

According to the conservation of momentum principle, momentum is conserved for each collision that takes place in an isolated system.

a) The overall momentum of a body, such as a ball dropped from a height, is preserved. Yet because some of the ball's momentum is transmitted to the earth, the ball's momentum changes.

b) After being dropped from a height H1, a ball of mass M bounces to a height H2, which is roughly half of H1. Since some of the energy in H2 is transformed to heat energy as a result of friction and air resistance, it has a lower value than H1 because its energy has been depleted. As a result, the ball bounces less than its initial height as well because heat, friction, and air resistance all deplete energy. SO, H2 <H1.

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Your question is incomplete. The complete question is:

A ball is thrown toward the ground. The figure shows the direction of the ball before it reaches the ground and the direction of the ball after it bounces off the ground. After the bounce, the ball leaves the ground at the same speed that it had before the bounce. The angle between the ground and the ball’s direction of travel is θ0 before and after the ball bounces off the ground. The positive directions are indicated in the figure. (a) Each grid below represents a component of the change in momentum of the ball as a result of the bounce. On each grid, draw a vector arrow to indicate the direction and relative magnitude of the change in momentum of the ball as a result of the bounce. If there is no change in momentum for a given component, write "NO CHANGE" under the corresponding grid. (b) A ball of mass M is released from rest at height H1 above the ground. After the ball reaches the ground, it bounces and travels to height H2 (about 1/2 of H1) above the ground, as shown in the figure. In a clear, coherent paragraph-length response that may also contain equations and drawings, explain, using the conservation of momentum and the conservation of energy, why H2 < H1?

If I move 3 m east and 4 m north, then my displacement would be 5m.

In geometry and mechanics, displacement is defined as a vector whose length is the shortest distance from initial to the final position of a point P undergoing the motion.

If an object moves relative to the reference frame—for example, if professor moves to the right relative to whiteboard or passenger moves toward the rear of airplane—then object's position changes. And this change in position is known as displacement.

Given AB= 3m east and BC= 4m north

AC= √ 3² + 4²= 25

So, AC, displacement = 5m

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A centripetal force of 0.55 N is needed to keep the model plane orbiting in a 45m radius if it completes one orbit in 12s.

To find the centripetal force needed to keep a 2.5kg model plane orbiting in a 45m radius, we can use the formula:

F = (m × v²) / r

where F is the centripetal force, m is the mass of the plane, v is its velocity, and r is the radius of the orbit. We can find the velocity of the plane using the formula:

v = 2 × π × r / T

where T is the time it takes to complete one orbit. In this case, T = 12s, so we get:

v = 2 × π × 45m / 12s = 9.42 m/s

Substituting the values into the first formula, we get:

F = (2.5kg × (9.42m/s)²) / 45m = 0.55 N

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Point-to-point encryption and end-to-end encryption are two distinct cryptographic approaches. Both these methods offer data security but in different ways.

The difference between point to point encryption and end-to-end encryption is as follows:

Point-to-point encryption

Point-to-point encryption (P2PE) protects payment card data from the time it is swiped to the point it is encrypted. It encrypts card data before it enters a merchant's system, keeping it secured until it is sent to the payment processor. The data is then decrypted and transmitted through the processing network to the card issuer for approval. P2PE prevents any attempts to intercept the card data while it's in motion from the terminal to the payment processor.

End-to-end encryption

End-to-end encryption (E2EE) involves encrypting data from the point of origin to its final destination. End-to-end encryption secures the entire data transmission process from client to server. It encrypts the data at the source, such that the data is protected throughout its journey. Therefore, end-to-end encryption is mainly used in messaging and communication apps like WA, etc.

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The current flowing out of a resistor is typically smaller than the current flowing into it. Resistors do not actually slow down the flow of charge, they merely convert electrical energy into heat.

The statement that the current flowing out of a resistor is smaller than the current flowing into it is correct. This is because resistors slow down the flow of charge. The amount of current flowing through a resistor is determined by the amount of voltage across the resistor and the resistance of the resistor. When the voltage across the resistor increases, the current flowing through it also increases.

Conversely, when the resistance of the resistor increases, the current flowing through it decreases. Resistors are used to control the flow of current in electrical circuits. They are used in a variety of applications, such as in voltage dividers, filters, and voltage regulators.

For example, a voltage divider is a circuit that divides a voltage into two or more parts. A voltage divider is made up of two resistors in series, and the output voltage is taken across one of the resistors. The amount of voltage across the output resistor is determined by the values of the two resistors.

If the two resistors are equal, the output voltage will be half the input voltage. If the output resistor is smaller than the input resistor, the output voltage will be less than half the input voltage. Conversely, if the output resistor is larger than the input resistor, the output voltage will be greater than half the input voltage.

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The magnetic field at the center of the coil is 0.0014 T.

How to find the magnetic field at the center of the coil? The magnetic field formula is given by, B = μ_0 * n * I Where,

B is the magnetic field; μ_0 is the magnetic constant (4π × 10⁻⁷ T⋅m/A); n is the number of turns per unit length; I is the current; N is the total number of turns; n = N/L, where, L is the length of the wire

The length of the wire is given by, L = π * D = π * 4.50 × 10⁻² = 0.141 m

Thus, n = N/L = 400/0.141 = 2830 turns/m

Now, B = μ_0 * n * I = 4π × 10⁻⁷ × 2830 × 0.5 = 0.0014 T

Therefore, the magnetic field at the center of the coil is 0.0014 T.

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0.99. is the distance from the bar on the right the painter walk before the plank fell.

To solve the given problem, we have to use the principle of moments which states that a body is in rotational equilibrium if the sum of clockwise moments is equal to the sum of anti-clockwise moments.

Let the distance between the painter and the bar on the right be x.

Then the distance between the painter and the bar on the left is 1 − x.

We have to find the maximum value of x for which the plank does not tip over.

As the plank is in equilibrium, the net moment about any point should be zero.

Here we will take the moment about the bar on the left so the clockwise moment will be taken as positive and the anticlockwise moment as negative.

The moment due to the painter will be the product of the mass of the painter, the distance of the centre of gravity of the painter from the left bar which is (1−x)/2, and the acceleration due to gravity.

The moment due to the bucket of 29 kg will be the product of the mass of the bucket, the distance of the centre of gravity of the bucket from the left bar which is x, and the acceleration due to gravity.

The moment due to the plank is zero as the plank is massless and the plank's centre of gravity lies at the centre which is midway between the two bars.

The expression for the principle of moments is shown below:-

m1g (1 - x)/2 + m2g x = 0

where, m1 = mass of painter,

m2 = mass of bucket and

g = acceleration due to gravity

Substituting the given values we get:-

68 (9.8) (1 - x)/2 + 29 (9.8) x = 0

Simplifying the above equation, we get:-

333.4x + 330.4 = 0x = 0.99 m

a painter (of mass 68 kg) needs to reach out from a scaffolding to paint the side of a building, so he lays a plank across two bars of the scaffolding, and puts a heavy bucket of mass 29 kg directly over one of the bars (see figure).

you can assume the plank is massless, and is long enough to reach to the other building. f the bars are separated by distance 1 how far; d, from the bar on the the right can the painter walk before the plank starts to fall.

Thus, the painter can walk to a distance of 0.99 m from the right bar before the plank starts to fall.

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The number of revolutions per minute which a 25 m diameter ferris wheel would need to make for the passengers to feel weightless is 7.84 rotations per minute.  

The rotational speed of a ferris wheel needs to reach 8.5 revolutions per minute (RPM) for passengers to experience weightlessness. To calculate the RPM of a 25m diameter ferris wheel, use the formula:

RPM = (distance/circumference) × 60.

The circumference of a 25 m ferris wheel is 157.07m. Therefore, the RPM of a 25m ferris wheel would be:

RPM = (25m/157.07m) × 60 = 7.84 RPM

Therefore, a 25m ferris wheel would need to rotate at a rate of 7.84 RPM for passengers to experience weightlessness.

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