Heat capacity on its own is rarely enough to predict the thermal performance of a material. Another important consideration is conductivity. If each of the following material was made into a frying pan, which would you expect to be heated the most uniformly in a short period of time when placed on the burner? Brass (k = 120 W/mk) Aluminum (k = 247 W/mK) Invar (63Fe-36Ni, k = 10 W/mK) O Copper (k = 398 W/mK)

The distinction in top among the pinnacle floor of glycerin and the pinnacle floor of ethyl alcohol is 0.0432 meter or 4.32 centimeter the difference in height between the top surface of glycerin and the top surface of alcohol is 4.32 centimeter.

Given the subsequent data:

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Answer:

I agree as this is a very moving piece of information

The average velocity of the body is 12.8ft/s and the speed of the body when t is 8 seconds is 256 ft/s.

We are ignoring the air resistance and the body is falling whose side is changing with the time as,

x(t) = 16t²

Where,

x is in feet,

t is in seconds.

The velocity of the body can by found as,

v(t) = 32t

Now, the average velocity between t = 8 seconds to t = 8.4 seconds is,

v(t) = 32(8.4 - 8)

v(t) = 32 x 0.4

v(t) = 12.8 ft/s.

Now, the velocity at the instance, when  t= 8 seconds.

v(t) = 32t

Putting t = 8 seconds,

v(t) =  32(8)

v(8) = 256ft/s.

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0.325 m far from the bar on the the right can the painter walk before the plank starts to fall.

Calculation :

balancing the moment of forces about right bar

22kg * g* L = 81* g * L

 d = (22/81)*L

 d =  (22/81)*1.2

 d = 0.325 m

The word "force" has a precise meaning. At this level it is appropriate to describe the force as pushing or pulling. A force does not contain or "have within" an object. A force is applied from one object to another. The concept of force is not limited to living things and inanimate things

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Nearsightedness that makes distant objects appear blurry.

Farsightedness (also called hyperopia) which makes nearby objects appear blurry.

Astigmatism which can make near and far objects appear blurry or distorted.

Clocks at rest in a reference frame where the two events occur are used to calculate the proper time between the events.

A. take place simultaneously B. take place at the same coordinates C. are separated by the maximum distance a light signal can travel in the given amount of time.

E On the x axis of reference frame S, there are two simultaneous events, one at x = a and the other at x = +a. An observer going in the direction of positive x says.

They are seen in reference frame S, which is travelling at a positive x-motional speed of 0.95c. The clocks of S are zeroed when the sources of the two frames coincide at time t = 0.

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The potential gradient along the wire is 0.208Vm⁻¹

We are given that,

Resistance of wire = R = 20Ω

Internal resistance = r = 18Ω

length of wire = L = 10m

E.M.F = ∈ =5V

Thus to find the value of potential gradient of the wire, we can use the equation,

i =  (∈)/(R+r)

i = 5v/ (20Ω +18Ω)

i = 0.104 A

Vr = iR =(0.104 A)(20Ω) =

Vr = 2.08 volt

Thus the potential gradient of the wire is given as,

potential gradient = V/L =  (2.08volt)/(10m)

potential gradient = 0.208Vm⁻¹

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In a black hole, the pull of gravity is so great that not even the most powerful electromagnetic waves can make their way out. According to general relativity, a black hole can arise if a massive object is so compact that it warps spacetime.

The event horizon is the threshold beyond which it is impossible to travel. According to general relativity, there are no locally observable features despite the fact that crossing them might drastically change the course of an object's life. A black hole is very similar to a perfect black body in that it does not reflect any light.

What's more, the same spectrum as a black body with a temperature inversely proportional to its mass is predicted by quantum field theory in curved spacetime for the radiation that event horizons generate. Stellar black holes have temperatures on the order of billionths of a Kelvin, making direct observations nearly impossible.

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The force that results when a liquid under pressure acts on surfaces that are submerged is known as a hydrostatic force. Fundamental concepts in fluid mechanics include the calculation of the hydrostatic force and the location of the centre of pressure.

suppose that a plate is immersed vertically in a fluid with den- sity and the width of the plate is at a depth of meters beneath the surface of the fluid. if the top of the plate is at depth and the bottom is at depth ,[tex]$$F=\int_a^v \rho g x w(x) d x,$$[/tex]

where [tex]$g$[/tex] stands for the acceleration of gravity.

Solution. Pick a point [tex]$x \in[a, b]$[/tex] and consider a horizontal section of the plate through [tex]$x$.[/tex]

Suppose this section defines a thin rectangle of height [tex]$\Delta x$[/tex] and width [tex]$w(x)$[/tex]whose area is [tex]$w(x) \Delta x$[/tex]. The pressure on this thin rectangle is then [tex]$\rho g x$[/tex], and therefore the hydrostatic force is given by

[tex]$$F=P A=\rho g x w(x) \Delta x$$[/tex]

The total force is then approximated by adding over different horizontal sections:

Taking the[tex]limit Delta x 0 yields[/tex]

[tex]F=\int_a^b \rho g x w(x) d x .$$[/tex]

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The top page will receive the current in the loop, and the bottom page will receive it out of the loop.

(a) Because B is constant and there is a constant magnetic Feld, we may recast the change in flux as shown above. Since A is positive, the loop will have a negative emf, which corresponds to an induced magnetic moment on the page that points to the left. The loop's current will flow into and out of the page in opposite directions. V=-Δφ/ Δt = -B·ΔA/ Δt

(b) Individual electrons in the wire loop can be imagined travelling radially outward as the loop's radius grows. We'll take into account one at the top of the loop (which is moving up the page). The Lorentz force Law is F=q(v)=qvB(yx)=-qvB.

(c) Circular orbits will emerge from constant forces pointing into the center of the loop (around the wire). We can tell we have positive current there since the force is pointing into the middle of the loop (into the page).

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When a paperweight and tray are placed together and put into a horizontal oscillating motion, the coefficient of static friction between them is 0.2

Given  frequency of motion (f) = 1.22 Hz.

the amplitude of the motion (A) =  5.00 x 10^-2 m

The coefficients of the normal force applied by the surface are determined as friction force.

Force of friction (Fr) = μ x normal force (F)

coefficient(μ) = F/Fr

we know that Fr = kx = mω^

2A anf F = mg

mω^

2A  = μmg

μ = ω^

2A/g  and ω = 2πf

μ = (2x3.14x1.22)^2 x 5x10^-2/9.8 = 0.2

Hence the coefficient = 0.2

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Considering the Boyle's law, if the pressure is increased to 1.80 atm, the gas will ocuppy a volume of 11.04 L.

Boyle's law establishes the relationship between the pressure and the volume of a gas when the temperature is constant.

Boyle's law states that the pressure of a gas in a closed container is inversely proportional to the volume of the container, when the temperature is constant: if the pressure increases, the volume decreases, while if the pressure decreases, the volume increases.

Mathematically, Boyle's law states that if the amount of gas and the temperature remain constant, the product of the pressure and the volume always has the same value:

P× V= k

where:

Considering the initial state 1 and the final state 2, it is fulfilled:

P₁× V₁= P₂× V₂

In this case, you know:

Replacing in Boyle's law:

737 torr× 20.5 L= 1368 torr× V₂

Solving:

(737 torr× 20.5 L)÷ 1368 torr= V₂

11.04 L= V₂

Finally, the new volume is 11.04 L.

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Jupiter: largest planet Saturn: has the most conspicuous rings Uranus: has the most highly inclined rotation axis Neptune: has the medium-sized moon Triton in orbit

Jupiter is the largest planet in the Solar System, with a diameter of over 140,000 kilometers and a mass about 318 times that of Earth. It is the fifth planet from the Sun and is known for its strong magnetic field and large number of moons, including the four Galilean moons - Io, Europa, Ganymede, and Callisto - which were discovered by Galileo Galilei in the 17th century.

Saturn is the second-largest planet in the Solar System and is known for its beautiful and prominent ring system, which is composed of ice, rock, and dust particles. The rings are tilted relative to the planet's equator, and the width of the rings varies from about 10 meters to over 20,000 kilometers.

Uranus is the seventh planet from the Sun and is notable for its unusual orientation, with its axis of rotation tilted at an angle of about 98 degrees relative to its orbit around the Sun. This means that Uranus experiences extreme seasons, with each hemisphere experiencing about 42 years of daylight and darkness.

Neptune is the eighth and outermost planet in the Solar System and is known for its bright blue appearance and strong winds. It has a medium-sized moon called Triton, which orbits the planet in a retrograde direction (opposite to the planet's rotation). Triton is thought to be a Kuiper Belt object that was captured by Neptune's gravity and is the only large moon in the Solar System that orbits in this direction.

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Answer: The mass of the first object is less than that of the second object.

Explanation:

ΣF = ma

a = ΣF/m

Thus, given two objects acted on by the same ΣF, a is inversely proportional to m. If a is larger, m must be smaller and vice-versa.

Answer: To solve this problem, we can use the equations of static equilibrium to determine the forces acting on the particle P. In equilibrium, the sum of the forces and the sum of the moments must be zero.

Explanation:

(i) The normal component of the contact force on P is 0.58 N.

(ii) The frictional component of the contact force on P is 0.11 N.

(iii) The coefficient of friction between P and the plane is 0.19.

The forces operating on the particle P can be ascertained using the equations for static equilibrium. The total of the moments and the forces must be zero in an equilibrium state.

The contact force on P has a normal component of 0.58 N.

The 0.11 N frictional component of the contact force on P.

P and the plane experience 0.19 coefficient of friction.

Friction between two surfaces causes kinetic energy to be converted into thermal energy when they move in relation to one another (that is, it converts work to heat). The utilization of friction produced by rubbing pieces of wood together to start a fire serves as an example of how this attribute can have dramatic effects.

When a viscous fluid is agitated, for instance, kinetic energy is transformed into thermal energy. Wear, which can result in component damage or performance degradation

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J- shaped tube is a device used to observe the relationship between volume and number of moles at constant pressure and temperature.

This is based on Boyle's law: A gas law known as Boyle's law asserts that a gas's pressure is inversely proportional to its volume when it is held at a fixed temperature and of a given mass.

To put it another way, as long as the temperature and volume of the gas remain constant, the pressure and volume of the gas are inversely proportional to one another. The Anglo-Irish chemist Robert Boyle proposed Boyle's law in the year 1662.

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we obtain  v0 =−xm ωsinϕ=3.06m/s.

What is  harmonic motion?

When the restoring force is proportionate to the displacement but acting in the opposite direction, an oscillating mass moves in a manner known as harmonic motion. The sine wave has a constant frequency and amplitude and can be used to describe harmonic motion because it is periodic.

What is mass?

The amount of matter in a particle or object is represented by its mass, which is denoted by the symbol m. In the International System (SI), the kilogram serves as the default unit of mass (kg).

ω= mK = 2.00kg/10100Nm

=7.07rad/s.

Energy methods provide one method of solution. Here, we use trigonometric techniques based on Eq.  x=x m cos(ωt+ϕ)  and Eq.  v=−ωx

msin(ωt+ϕ).

(a) Dividing Eq.  v=−ωxm

​

sin(ωt+ϕ)  by  Eq.x=xmcos(ωt+ϕ),  we obtain  

xv=−ωtan(ωt+ϕ)  

So that the phase  (ωt+ϕ) is found from ωt+ϕ=tan−1( ωx−v )=tan −1( (7.07rad/s)(0.129m)

−3.415m/s).

With the calculator in radians mode, this gives the phase equal to  –1.31rad.  Plugging this back into Eq.x=xmcos(ωt+ϕ),  leads to  0.129m=xmcos(−1.31) ⇒xm=0.500m.

(b) Since  ωt+ϕ=–1.31rad  at  t=1.00s, we can use the above value of  ω  to solve for the phase constant  ϕ. We obtain  ϕ=–8.38rad  (though this, as well as the previous result, can have  2π  or  4π  (and so on) added to it without changing the physics of the situation). With this value of  ϕ, we find  x0=xmcosϕ=−0.251m.

(c) And we obtain  v0 =−xm ωsinϕ=3.06m/s.

Therefore, we obtain  v0 =−xm ωsinϕ=3.06m/s.

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There is a flow of electrons from charged to uncharged whenever a charged capacitor is connected to an uncharged capacitor, and this flow continues until a steady state is reached. As a result, there is no further charge transfer and both capacitors are in equilibrium.

When we say a capacitor is uncharged, we imply that there are an equal amount of positively and negatively charged ions and electrons on each of its plates.

The capacitor's starting voltage is zero.

The capacitor's charge Q and voltage across it are both 0 before the switch is closed.

The charge has not had a chance to accumulate before the switch is closed.

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The largest atom of period 4 is Potassium (K).

One of the chemical elements in the fourth row (or period) of the periodic table of the elements is known as element of period 4. The periodic table is organized into rows to show recurrent (periodic) tendencies in the chemical behavior of the elements as their atomic number rises.

One element is present in each of the eighteen groups, making up the fourth period's 18 elements, which start with potassium and end with krypton. d-block, which includes transition metals, makes its first appearance in the table.

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And p(2)=poexp(-x/L) describes how its resistivity changes along a rod. The rod's end at r=0 has a potential Vo that is higher than the end at x=L.Ohm's law is followed by the substance,  

Solution p(x)=p₀ exp(-x/L)

(a) we know that R=PL/A

dR=ρ(x)dx/A=p₀ e[tex]^{-x/L}[/tex] dx/A

R=p₀/A[tex]\int\limits^L_0 e^{-x/L} \, dx[/tex]

R=(p₀L/A)(1-e⁻¹)

(b)I=V₀/R=V₀A/p₀L(1-e⁻¹)

(c)ρ=E/J

E=ρJ

E(x)=Ip₀e[tex]^{-x/L}[/tex]/A=V₀Ap₀ e[tex]^{-x/L}[/tex]/p₀L(1-e⁻¹)A

Hence E(x)=V₀ e[tex]^{-x/L}[/tex]/L(1-e⁻¹)

(d)R(x)=∫dR=p₀/A[tex]\int\limits^x_r e^{-x/L} \, dx[/tex]

R(x)=Lp₀/A(1-e[tex]^{-x/L}[/tex])

starting from left end of rod ,there is potential drop IR(x) at distance x

∴V(x)=V₀-IR(x)

V(x)=V₀( e[tex]^{-x/L}[/tex] -e⁻¹)/(1-e⁻¹)

The current through a conductor between two places is directly proportional to the voltage across the two points, according to Ohm's law. The typical mathematical equation that captures this relationship is reached by including the resistance as the constant of proportionality.

where I denotes the current flowing through the conductor, V is the voltage applied across the conductor, and R denotes the conductor's resistance. The R in this relationship is constant and independent of the current, according to Ohm's law. Although the previous equation cannot be referred to as Ohm's law if the resistance is not constant, it can still be used to define static/DC resistance. The conductivity of the great majority of electrically conductive materials is accurately described by Ohm's law, an empirical relation.

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Maximum height could a person jump and land rigidly upright on both feet without breaking his legs: h = 0.30 m

Briefly:

Potential energy = m g h would be present in a jumper at height h, and as the jumper hits the ground, this potential energy will totally transform into kinetic energy. Now, the human can only absorb a maximum of 200 J of energy.

m = 67 kg

g = 9.8 m/s²

⇒ m g h = 200 J

⇒ h = 200 J / (67 kg × 9.8 m/s²) = 0.30 m

Therefore, a person can only fall from a height of 0.30 m safely and without breaking both of their legs.

In metabolic processes, lipids provide the most energy. On reduction, lipids turn into fatty acids. As a result, fat has a higher energy content than both glycogen and proteins together.

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Question:-

the maximum energy a bone can absorb without breaking is surprisingly small. for a healthy human of mass 67 kg , experimental data show that the leg bones can absorb about 200 j . part a from what maximum height could a person jump and land rigidly upright on both feet without breaking his legs?

The spring constant k is (1/k₁ + 1/k₂ + 1/k₃)⁻¹.

The effective spring constant k of the two-spring system will be equal to (1/k₁ + 1/k₂)⁻¹, while the spring constant k′ of the three-spring system will be equal to (1/k₁ + 1/k₂ + 1/k₃)⁻¹.

Since only one force F acts, the force on spring with spring constant k₁ is F = k₁x₁ where x₁ is its extension

the force on spring with spring constant k₂ is F = k₂x₂ where x₁ is its extension

Let F = kx be the force on the equivalent spring with spring constant k

We must consider the variable x as the extension of each spring.

The total extension , x = x₁ + x₂

x = F/k = F/k₁ + F/k₂

1/k = 1/k₁ + 1/k₂

k = (1/k₁ + 1/k₂)⁻¹

B

The force on spring with spring constant k₃ is F = k₃x₃ where x₃ is its extension

Let F = kx be the force on the equivalent spring with spring constant k and extension x.

The total extension , x = x₁ + x₂ + x₃

x = F/k = F/k₁ + F/k₂ + F/k₃

1/k = 1/k₁ + 1/k₂ + 1/k₃

k = (1/k₁ + 1/k₂ + 1/k₃)⁻¹

Therefore, the value of spring constant k is (1/k₁ + 1/k₂ + 1/k₃)⁻¹.

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[NOTE: THIS IS AN INCOMPLETE QUESTION. THE COMPLETE QUESTION IS: Consider two massless springs connected in series. Spring 1 has a spring constant k1, and spring 2 has a spring constant k2. A constant force of magnitude F is being applied to the right. When the two springs are connected in this way, they form a system equivalent to a single spring of spring constant k.

(A) What is the effective spring constant k of the two-spring system? Express the effective spring constant in terms of k1 and k2.

(B) Now consider three springs set up in series as shown. (Figure 2) The spring constants are k1, k2, and k3, and the force acting to the right again has magnitude F. Find the spring constant k′ of the three-spring system. Express your answer in terms of k1, k2, and k3.]

The projectile's impulse is equal to the bowling pin's impulse in the negative, which in turn is equal to the projectile's change in momentum in the negative.

Impulse is commonly denoted by the letter J and is equivalent to the change in momentum ( p Delta p p). According to the impulse-momentum theorem, an object will experience an impulse that is equal to the change in its momentum. An object's impulse during a collision is always equal to the change in momentum. If a collision does not cause the system to lose any net kinetic energy, it is referred to as elastic. In elastic collisions, momentum and kinetic energy are both conserved.

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The magnitude and direction of the electric field at x = 3.5 cm is 85.75V/m and is towards the plate 1.

Given the electric potential in the space between two flat parallel plates 1 and 2 is (V) = 1270x^2

the perpendicular distance from plate 1 is = xm = 3.5cm

We know that changing electric field is given as :

E(x) = -dV/dx

By differentiating we get :

E(x) = -(d(1270x^2)/dx)

E(x) = - (2*1270*x)

E(x) = -2540x

Here given x = 3.5cm = 0.035m

Then E(x) = -2450*0.035 = -85.75V/m

Hence  the magnitude and direction of the electric field is 85.75V/m and is towards the plate 1

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The capacitance per unit is 1.292 X 10⁻¹⁰.

The radius of inner part of the conductor = r = 2.6 X 10⁻³ m

The radius of outer part of the conductor = R = 4 X 10⁻³ m

Length of the capacitor = l = 2.1 X 10⁻³ m

Capacitance is purely geometrical property. It depends only on length, radius of conductor.

From the formula of cylindrical capacitor,      

= C = (2πεl) / ln(R/r)

where ε = 8.85 X 10⁻¹²

But we need capacitance per unit length so,

= C/l = (2πε) / ln(R/r)

= C/l = (2 X 3.14 X 8.85 X 10⁻¹²) / ln ( 4 X 10⁻³ / 2.6 X 10⁻³)

= C/l = 55.58 X 10⁻¹² / 0.43

= C/l = 1.292 X 10⁻¹⁰

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When a particle may pass through a potential energy barrier with an energy greater than its kinetic energy, this process is known as tunnelling in quantum mechanics. This remarkable characteristic of tiny particles is crucial in the explanation of a number of scientific processes, including radioactive decay.

An atom or subatomic particle might appear on the other side of a barrier that should be impossible for it to cross due to a phenomena known as quantum tunnelling. It's as though you were out walking when you came across.

Because in this straightforward system, if a particle's energy is below the potential, it will always bounce back, and if it has a higher energy, it will always pass.

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a. Spring constant which has a maximum mass velocity of 25.0 cm/s and a period of 0.450 s = 17.49 N/m.

b. The amplitude of the motion of the spring = 0.0179 m.

c. Frequency of oscillation of the spring = 2.22 Hz.

Briefly, angular velocity is the angular speed accompanied by the direction. The unit of angular speed is rad/s or rad/minute or rad/hour.

Some of the equations that are often used are:

ω = [tex]\sqrt{\frac{k}{m}}[/tex]

ω = 2π/T

ω = angular velocity (rad/second)

k =  the spring constant

m = mass of the object

f = frequency (rev/second)

T = period (second)

The question is incomplete, it should be:

Find the

a. constant of the spring?

b. amplitude of the motion?

c. frequency of oscillation?

We have,

Mass of the object = 90.0 g

The maximum speed = 25.0 m/s

The period = 0.450 s

Determine the angular velocity first,

ω = 2π/T

= 2π/0.450

= 4.44 π rad/s

So,

a. Spring constant:

ω = [tex]\sqrt{\frac{k}{m}}[/tex]

k = ω²m

= (4.44 π rad/s)² (0.09)

= 17.49 N/m.

b. The amplitude:

vm = (xm) (ω)

So, xm = vm/ω

= 0.25/4.44 π

= 0.0179 m

c. The frequency:

f = 1/T

= 1/0.450

= 2.22 Hz.

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The ratio of intensities of the signal and the background noise for each device is 7943.2 and 316.2 respectively.

The signal-to-noise ratio (SNR) is a measure of the strength of the desired signal relative to the background noise. It is usually expressed in decibels (dB).

A higher SNR indicates a stronger signal relative to the background noise, and therefore a higher quality of sound. To find the ratio of intensities of the signal and the background noise for each device, you can use the formula:

Intensity ratio = 10^(SNR/10)

For the cassette player with an SNR of 62 dB, the intensity ratio would be:

Intensity ratio = 10^(62/10) = 316.2

This means that the intensity of the signal is 316.2 times stronger than the intensity of the background noise.

For the CD player with an SNR of 98 dB, the intensity ratio would be:

Intensity ratio = 10^(98/10) = 7943.2

This means that the intensity of the signal is 7943.2 times stronger than the intensity of the background noise. Therefore, the CD player has a much higher intensity ratio and a higher quality of sound compared to the cassette player.

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A viewing window 30 cm in diameter is erected 3 m below the surface of an aquarium tank filled with sea water. The force the glass must endure is roughly 8562 N.

Given,

Diameter = 30 cm

= 0.3 m

radius = 0.3/2

= 0.15

Total pressure = 1atm + hρg

= 10⁵ N/m + 1000 × 9.8 × 3

= 101325 + 29400

= 130725 Pa

therefore Force = 130725 × π × 0.15²

= 9235.721 N that is approximately 8562 N

An object experiences a push or pull as a result of interacting with another item. Each item is subject to a force whenever two things interact. The two items no longer feel the force after the interaction ends. Only by interaction do forces come into being.

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The time it takes the block and the sphere to reach the bottom of the plane, uniform sphere and a block are placed at rest is 3 second

a=gsinθ1+K2R2

I=25MR2=MK2

K^2/R^2=2/5

θ=g×sin30∘1+25

a=5/7g×12

=57×9.8×12

=3.5m/s2

s=ut+12at2,

15.75=0+12×3.5×t2

t^2=15.75×23.5=9

t=3s

Time is described by physicists as the progression of events through the past, present, and future. A system is essentially timeless if it doesn't change. Time may be viewed as the fourth dimension of reality when describing events that occur in three-dimensional space. Time is something we cannot see, touch, or taste, but we can calculate how much of it has passed. Time is constant everywhere in classical mechanics. The timekeeping mechanisms continue to be accurate. Time is relative, however, as demonstrated by Einstein's special and general theories of relativity. It depends on the viewpoint of the observer. According to the theory of time dilation, intervals between events lengthen as one gets closer to the speed of light (dilates).

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