A 10.0 μF parallel-plate capacitor is connected to a 12.0 V battery. After the capacitor is fully charged, the battery is disconnected without loss of any of the charge on the plates. Part A A voltmeter is connected across the two plates without discharging them. What does it read? Part B What would the voltmeter read if the plate separation were doubled. Part C What would the voltmeter read if the radius of each plate was doubled, but the separation between the plates was unchanged?

Answers

Answer 1

Part A: The voltage of the capacitor will remain constant until some external influence acts on it. Which is 12V.

Part B: The voltmeter reading will be 24.0 V.

Part C: The voltmeter reading will be 3.0 V.

Given that,

Charge of the capacitor = C

Voltage of the battery = V = 12.0 V

Part A:

A voltmeter is connected across the two plates without discharging them.

What does it read?

The voltmeter will read the same voltage as the battery voltage i.e., 12.0 V. This is because once the capacitor is fully charged, the battery is disconnected without loss of any of the charge on the plates.

Part B:

What would the voltmeter read if the plate separation were doubled?

The capacitance of the capacitor is given by,

C=ϵ[tex]_0[/tex] [tex]\frac{A}{d}[/tex]

Where,  ϵ[tex]_0[/tex] is the permittivity of free space

A is the area of each plate and

d is the separation between the plates

The capacitance is inversely proportional to the separation between the plates. Doubling the separation will reduce the capacitance by half. T

Therefore, capacitance will become 5.0 μF.

Now the charge on the capacitor is given by,

Q = CV = 10.0 × [tex]10^{-6}[/tex] × 12.0 = [tex]1.2 \times10^{-4}[/tex] C

Now the capacitance is 5.0 μF, therefore,

Q’ = CV’ = Q

⇒ V’ = Q’/C’ = Q/C =1.2 × [tex]10^{-4}[/tex]/ 5.0 × [tex]10^{-6}[/tex] = 24.0 V

Part C:

What would the voltmeter read if the radius of each plate was doubled, but the separation between the plates was unchanged?

The capacitance of the capacitor is given by,

C=ϵ[tex]_0[/tex] [tex]\frac{A}{d}[/tex]

Where, ϵ[tex]_0[/tex] is the permittivity of free space

A is the area of each plate and

d is the separation between the plates

The capacitance is directly proportional to the area of the plates.

Doubling the radius will increase the capacitance by four times.

Therefore, capacitance will become 40.0 μF.

Now the charge on the capacitor is given by,

Q = CV = 10.0 × [tex]10^{-6}[/tex] × 12.0 = 1.2 × [tex]10^{-4}[/tex] C

Now the capacitance is 40.0 μF,

therefore,

Q’ = CV’ = Q

⇒ V’ = Q’/C’ = Q/C = 1.2 × [tex]10^{-4}[/tex] / 40.0 × [tex]10^{-6}[/tex] = 3.0 V

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Related Questions

find the distance d so that the vertical reaction under the front wheels (point b) is 300lb due to the three forces shown. the cart is being towed at a constant velocity

Answers

The distance d so that the vertical reaction under the front wheels (point b) is 300lb due to the three force is equal to 200 ft. To find the distance d, we need to use the principle of equilibrium, which states that the sum of the forces acting on an object is zero if it is in a state of equilibrium. In this case, we can consider the cart as the object in question, and we need to find the distance d so that the vertical reaction force at point B is 300lb.

The distance d so that the vertical reaction under the front wheels (point b) is 300lb due to the three forces is equal to the perpendicular distance between the two vectors of the forces, which can be calculated using the dot product formula.


The dot product of two vectors can be calculated using the formula:

d = ((F1x × F2x) + (F1y × F2y))/|F2|


Where F1 and F2 are the two forces, F1x and F1y are the x and y components of F1, and F2x and F2y are the x and y components of F2. |F2| is the magnitude of F2.


By plugging in the x and y components of the forces, we can calculate the distance d:

d = ((-50 × 200) + (400 × 300))/500 = 200 ft


Therefore, the distance d so that the vertical reaction under the front wheels (point b) is 300lb due to the three forces is equal to 200 ft.

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how do net torque and rotational inertia affect the angular acceleration of a rotating object? experimentally determine the mathematical relationship between net torque, rotational inertia, and angular acceleration of a rotating object

Answers

Net torque and rotational inertia are related to the angular acceleration of a rotating object.

In general, the angular acceleration of a rotating object is directly proportional to the net torque applied to the object and inversely proportional to the object's rotational inertia.

Mathematically, this can be represented as:

α = τ / I

Where

α is the angular acceleration of the object,

τ is the net torque applied to the object, and

I is the object's rotational inertia.

The net torque is the total torque acting on an object, and it is the difference between the clockwise and anticlockwise torques. The rotational inertia of an object is the measure of an object's resistance to rotational motion.When the net torque acting on an object is zero, the angular acceleration of the object is also zero. This is because the torque and angular acceleration have a linear relationship. The greater the torque applied to an object, the greater the angular acceleration of the object.

In conclusion, the net torque and rotational inertia affect the angular acceleration of a rotating object, and the mathematical relationship between them can be experimentally determined using the formula α = τ / I.

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A circuit consists of a 10.0-ohm resistor, a 15.0-ohm resistor, and a 20.0-ohm resistor connected in parallel across a 9.00-volt battery. What is the equivalent resistance of this circuit?0.200 Ω1.95 Ω4.62 Ω45.0 Ω

Answers

The equivalent resistance of this circuit is 4.62 Ω.

What is resistors?

A resistor is an electronic component that is used to resist or limit the flow of electric current through a circuit. It is a passive component, which means it does not require any external power source to function.

Resistors are typically made of materials that have a high resistance to the flow of electric current, such as carbon, metal, or metal oxide

When resistors are connected in parallel, the total resistance can be calculated using the following formula:

1/Req = 1/R1 + 1/R2 + 1/R3 + ...

where Req is the equivalent resistance and R1, R2, R3, etc. are the individual resistances.

Applying this formula to the given circuit, we get:

1/Req = 1/10 + 1/15 + 1/20

1/Req = 0.1 + 0.0667 + 0.05

1/Req = 0.2167

Taking the reciprocal of both sides gives:

Req = 1/0.2167

Req = 4.62 Ω

Therefore, the equivalent resistance of this circuit is 4.62 Ω.

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Which of these is an example of investigating an intensive property?A. weighing sand in a bagB. measuring the length of wireC. determining if a rock is magneticD. recording the volume of water in a cylinder

Answers

The intensive property refers to a physical characteristic of matter that does not depend on the amount of matter present. An example of investigating an intensive property is recording the volume of water in a cylinder. The correct option is D.

What are the intensive properties?

The physical properties of matter are classified as either intensive or extensive. Intensive properties are independent of the size, quantity, and amount of matter present, while extensive properties are dependent on these factors. Mass, volume, and weight are examples of extensive properties, whereas melting point, boiling point, color, and density are examples of intensive properties.

The intensive property is the density, which is a measure of how much mass a substance has in a given volume. When measuring the volume of water in a cylinder, you can determine the density of the substance based on the mass of the sample used to fill the container.

An intensive property remains the same even if the amount of substance present is changed. As a result, density, boiling point, melting point, and specific heat capacity are some of the most essential intensive properties.

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The angular momentum of the propeller of a small single-engine airplane points forward. The propeller rotates clockwise if viewed from behind.(a) Just after liftoff, as the nose lifts and the airplane tends to veer to one side. To which side does it veer and why?(b) If the plane is flying horizontally and suddenly turns to the right, does the nose of the plane tend to move up or down? Why?

Answers

(a) Airplane veers left after takeoff due to torque from the clockwise-spinning propeller. (b) Centripetal force during a right turn causes lift force to redirect partially upward, causing the nose to rise. Speed may affect nose drop.

(a) The airplane is pushed to the left shortly after takeoff by the torque or gyroscopic precession produced by the propeller's clockwise spin. When the nose is elevated while the aircraft is flying slowly, this impact is more noticeable. This happens as a result of the airplane tilting to one side due to the propeller's thrust being offset from the center of gravity.

(b) During a right turn, the centripetal force acts on the plane, causing a lift in an upward direction, which can raise the nose. However, a speed decrease can cause the nose to drop. Lift force is crucial in nose motion during turns

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Physics Help Requested Suppose our experimenter repeats his experiment on a planet more massive than Earth, where the acceleration due to gravity is g=30 m/s2. When he releases the ball from chin height without giving it a push, how will the ball's behavior differ from its behavior on Earth? Ignore friction and air resistance. (Select all that apply.)a. It will take more time to return to the point from which it was released.b. It will smash his face. Its mass will be greater.c. It will take less time to return to the point from which it was released. d, It will stop well short of his face.

Answers

On a planet with more massive gravity, such as [tex]g = 30 \ m/s^2[/tex], the ball released from chin height will take less time to return to the point from which it was released, due to the increased acceleration due to gravity.

It will take less time to return to the point from which it was released. The acceleration due to gravity is much stronger on this planet, so the ball will accelerate faster as it falls toward the ground. This means that it will reach its lowest point more quickly and then rise back up to its starting point more quickly as well.

Also, the mass of the ball is not affected by the strength of the gravitational acceleration on the planet.

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A ball rolls along a horizontal track in a certain time. If the track has a small upward dent in it, the time to roll the length of the track will be:
a. less
b. more
c. the same

Answers

Explanation:

More....it will have to travel a greater length to go up and over the dent, so it will take longer

A __________ pollutant interacts with a part of the atmosphere and becomes a __________ pollutant.primary; secondarysecondary ; primary

Answers

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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Terri Vogel, an amateur motorcycle racer, averages 129.77 seconds per 2.5 mile lap (in a 7 lap race) with a standard deviation of 2.26 seconds. The distribution of her race times is normally distributed. We are interested in one of her randomly selected laps. (Source: log book of Terri Vogel) Let X be the number of seconds for a randomly selected lap. Round all answers to 4 decimal places where possible. a. What is the distribution of X?X−N(___________, _________). b. Find the proportion of her laps that are completed between 131.69 and 134.04 seconds________
.c. The fastest 4% of laps are under__________seconds.
d. The middle 70% of her laps are from seconds________ to_________ seconds.

Answers

a) The distribution of X: X-N(129.77,2.26),

b) the proportion of her laps that are completed between 131.69 and 134.04 seconds 0.1670,

c) the fastest 4% of laps are under 126.1965 seconds,

d) the middle 70% of her laps are from seconds 127.5323 to 131.0277 seconds.

a. The distribution of X is the normal distribution with a mean of 129.77 seconds and a standard deviation of 2.26 seconds. Therefore, the distribution of X is X - N(129.77, 2.26).

b. The area between 131.69 and 134.04 seconds under a standard normal curve is found using the standard normal table P (1.05) = 0.8531P (1.71) = 0.9564

Therefore, the proportion of laps completed between 131.69 and 134.04 seconds is

P(131.69 ≤ X ≤ 134.04) = P[(131.69 - 129.77)/2.26 ≤ Z ≤ (134.04 - 129.77)/2.26]

= P(0.8496 ≤ Z ≤ 1.8814) = P(Z ≤ 1.8814) - P(Z ≤ 0.8496)

= 0.9693 - 0.8023

= 0.1670

Therefore, the proportion of laps that are completed between 131.69 and 134.04 seconds is 0.1670.

c. The value corresponding to the lowest 4% is found: P (z) = 0.04. The value of z corresponding to the lowest 4% is obtained as follows:

z = P−1(0.04) = -1.7507

So, the number of seconds that the fastest 4% of laps are under is:

x = μ + zσ = 129.77 - (1.7507)(2.26)

= 126.1965

Therefore, the fastest 4% of laps are under 126.1965 seconds.

d. We know that z corresponding to the lowest 15% is -1.036 and that z corresponding to the highest 15% is 1.036.

Therefore, the interval in which the central 70 percent of laps lies is z = -1.036, 1.036

z = P(X) - P(X) = P(z ≤ X) - P(z ≤ X) = P(z ≤ -1.036) - P(z ≤ 1.036)

= 0.1492 - 0.8513

= -0.7021

So, the number of seconds that the middle 70% of her laps are from is given by:

x = μ + zσ = 129.77 + (-0.7021)(2.26) = 127.5323 and

x = μ + zσ = 129.77 + (0.7021)(2.26) = 131.0277

Therefore, the middle 70% of her laps are from seconds 127.5323 to 131.0277 seconds.

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a 135-kg k g astronaut (including space suit) acquires a speed of 2.70 m/s m / s by pushing off with her legs from a 1900-kg k g space capsule. use the reference frame in which the capsule is at rest before the push.
A) What is the velocity of the space capsule after the push in the reference frame? B)If the push lasts 0.660 s , what is the magnitude of the average force exerted by each on the other? C)What is the kinetic energy of the astronaut after the push in the reference frame? D)What is the kinetic energy of the capsule after the push in the reference frame? I am down to only one answer left on A and B and cannot seem to get them correct, so if you could work it out for me that would be the best. Thank you.

Answers

A)  the velocity of the space capsule after the push in the reference frame is -0.191 m/s.

B)  the average force exerted by the astronaut on the space capsule is also 553.8 N

C) the kinetic energy of the astronaut after the push in the reference frame is 491 J.

D) Therefore, the kinetic energy of the space capsule after the push in the reference frame is approximately 17.2 J.

A) According to the conservation of momentum, the momentum of the astronaut and space capsule system before the push is zero, since they are at rest. After the push, the total momentum of the system is still zero. Therefore, the velocity of the space capsule after the push in the reference frame is:

m1v1 + m2v2 = 0

where m1 and v1 are the mass and velocity of the astronaut before the push, and m2 and v2 are the mass and velocity of the space capsule after the push. Substituting the given values, we get:

(135 kg)(2.70 m/s) + (1900 kg)(v2) = 0

Solving for v2, we get:

v2 = -(135 kg)(2.70 m/s) / (1900 kg) = -0.191 m/s

Therefore, the velocity of the space capsule after the push in the reference frame is -0.191 m/s.

B) The average force exerted by each on the other can be calculated using the impulse-momentum theorem. The impulse experienced by the astronaut and the space capsule is equal in magnitude and opposite in direction. Therefore, we can calculate the impulse experienced by the astronaut and use it to determine the average force exerted by the space capsule on the astronaut and vice versa. The impulse experienced by the astronaut can be calculated as follows:

I = m1Δv = (135 kg)(2.70 m/s) = 364.5 Ns

where Δv is the change in velocity of the astronaut due to the push.

The duration of the push is 0.660 s. Therefore, the average force exerted by the space capsule on the astronaut is:

F = I / t = (364.5 Ns) / (0.660 s) ≈ 553.8 N

Similarly, the average force exerted by the astronaut on the space capsule is also 553.8 N.

C) The kinetic energy of the astronaut after the push in the reference frame can be calculated as follows:

KE = (1/2)mv^2

where m is the mass of the astronaut and v is her velocity after the push. Substituting the given values, we get:

KE = (1/2)(135 kg)(2.70 m/s)^2 = 491 J

Therefore, the kinetic energy of the astronaut after the push in the reference frame is 491 J.

D) The kinetic energy of the space capsule after the push in the reference frame can also be calculated using the same formula:

KE = (1/2)mv^2

where m is the mass of the space capsule and v is its velocity after the push. The velocity of the space capsule after the push is -0.191 m/s. Substituting the given values, we get:

KE = (1/2)(1900 kg)(-0.191 m/s)^2 ≈ 17.2 J

Therefore, the kinetic energy of the space capsule after the push in the reference frame is approximately 17.2 J.

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Mary and Sally are in a foot race. When Mary is 22m from the finish line, she has a speed of 4.0 m/s and is 5.0m behind Sally, who has a speed of 5.0 m/s. Sally thinks she has an easy win and so, during the remaining portion of the race, decelerates at a constant rate of 0.36 m/s^2 to the finish line. What constant acceleration does Mary now need during the remaining portion of the race, if she wishes to cross the finish line side-by-side with Sally? Express your answer to two significant figures and include the appropiate units.

Answers

Answer: poop

Explanation:

1. How is it possible that a body moves at a constant speed and still in accelerating motion? 2. When a car is going around a circular track with constant speed, what provides the centripetal force necessary for circular motion? 3. What are directions of acceleration and net force if the speed of an object is changing while rotating in a circular motion? 4. In this experiment, what would be the effect if the point on the arm hanging the bob and the pointer are not on the same vertical line in the experiment? 5. In this experiment, if there is no spring attached and the bob is rotated at a constant speed, what provides the centripetal force? Draw a diagram to explain your answer.

Answers

1) The body can remain at a constant speed but its velocity can be changing direction, which means it is being accelerated.

2) This friction generates a force directed toward the center of the circle which provides the centripetal force.

3) The direction of acceleration is always directed toward the center of the circle while the net force is provided by the friction between the tires and the track.

4) the centripetal force required for the circular motion will be incorrect.

5) This tension is directed toward the center of the circle and provides the centripetal force.

It is possible for a body to move at a constant speed and still be in an accelerating motion because acceleration is a rate of change in velocity. The body can remain at a constant speed but its velocity can be changing direction, which means it is being accelerated. The centripetal force necessary for circular motion is provided by the frictional force between the tires of the car and the track. This friction generates a force directed toward the center of the circle which provides the centripetal force. The direction of acceleration is always directed toward the center of the circle while the net force is provided by the friction between the tires and the track.

If the point on the arm and the pointer are not on the same vertical line in the experiment, it would cause the bob to not rotate in a perfect circle, and therefore the centripetal force required for the circular motion will be incorrect. In this experiment, if there is no spring attached and the bob is rotated at a constant speed, the centripetal force will be provided by the tension of the string attached to the bob. This tension is directed toward the center of the circle and provides the centripetal force.

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Artificial gravity. One way to create artificial gravity in a space station is to spin it. Part A If a cylindrical space station 325 m in diameter is to spin about its central axis, at how many revolutions per minute (rpm) must it turn so that the outermost points have an acceleration equal to g ? f = nothing rpm

Answers

The space station must turn at 1.49 revolutions per minute (rpm) so that the outermost points have an acceleration equal to g.

Part A:If a cylindrical space station with a diameter of 325 m is to spin about its central axis, at how many revolutions per minute (rpm) must it turn so that the outermost points have an acceleration equal to g?The acceleration of the outermost points is given as g. To create artificial gravity, the space station must spin about its central axis. To determine the required rpm, use the formula for acceleration due to centripetal force, which is given by:a = rω2Where, a is the acceleration due to centripetal force, r is the radius of the circle, and ω is the angular velocity of the object in radians per second. One full rotation equals 2π radians. Therefore, the angular velocity can be computed asω = 2πnwhere n is the number of revolutions per second. To transform it to rpm, use the formula:n = (r.p.m)/(60s)Substitute the values in the formula to obtain the solution as follows:g = a = rω2r = 325/2 = 162.5ma = g = 9.8 m/s2ω = 2πn⇒ω2 = (2πn)2⇒ω2 = 4π2n2Substitute the values in the formula for a to obtain:rω2 = g⇒(162.5 m)(4π2n2) = 9.8 m/s2n = 1.49 rpmTherefore, the space station must turn at 1.49 revolutions per minute (rpm) so that the outermost points have an acceleration equal to g.

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To stretch a spring 5.00cm from its unstretched length, 19.0J of work must be done.1- what is the force constant of the spring ?2- What magnitude force is needed to stretch the spring 5.00cm from its unstretched length?3- How much work must be done to compress this spring 4.00 cm from its unstretched length?4-What force is needed to stretch it this distance?

Answers

1) The force constant of the spring is 0.76N/cm, 2) The magnitude force needed to stretch the spring 5.00cm from its unstretched length is 3.80N, 3) Work done to compress this spring 4.00 cm from its unstretched length is 12.48J, 4) Force needed to stretch it this distance is 3.04N.


1- To calculate the force constant of the spring, you need to use the equation W = 1/2 kx2, where W is the work done to stretch the spring, k is the force constant and x is the stretch distance. In this case, W = 19.0J and x = 5.00cm, so k = 19.0/25 = 0.76N/cm.


2- To calculate the magnitude of the force needed to stretch the spring 5.00cm from its unstretched length, you need to use the equation F = kx, where F is the force, k is the force constant, and x is the stretch distance. In this case, F = 0.76N/cm x 5.00cm = 3.80N.


3- To calculate the work done to compress this spring 4.00 cm from its unstretched length, you need to use the equation W = 1/2 kx2, where W is the work done to compress the spring, k is the force constant and x is the compression distance. In this case, W = 1/2 x 0.76N/cm x (4.00 cm)2 = 12.48J.


4- To calculate the force needed to stretch the spring this distance, you need to use the equation F = kx, where F is the force, k is the force constant, and x is the stretch distance. In this case, F = 0.76N/cm x 4.00cm = 3.04N.

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I need help with this please

Answers

The answer is neutral

Answer:

It is positive

Explanation:

The area is only concentrated with red protons

The picture shows a bicyclist increasing speed while riding down a hill during a bicycle race.

Which statements accurately describe the potential and kinetic energy of this bicyclist?

Answers

The statement "Kinetic energy increases. Potential energy decreases" accurately describes the potential and kinetic energy of the bicyclist.

What is Kinetic Energy?

The kinetic energy of an object is directly proportional to its mass and the square of its velocity. This means that an object with a larger mass or higher velocity will have a greater kinetic energy than an object with a smaller mass or lower velocity.

As the bicyclist moves downhill, their speed increases, and therefore their kinetic energy increases. At the same time, the height of the bicyclist above the ground (and therefore their potential energy) decreases as they move downhill. This is because potential energy is energy that is stored in an object due to its position or configuration in a force field, and in this case, the force field is gravity. As the bicyclist moves downhill, they are losing potential energy and converting it to kinetic energy, which is the energy of motion.

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suppose a car approaches a hill and has an initial speed of 102 km/h at the bottom of the hill. the driver takes her foot off of the gas pedal and allows the car to coast up the hill.
If the car has the initial speed stated at a height of h = 0, how high, in meters, can the car coast up a hill if work done by friction is negligible?

Answers

The initial speed of the car that approaches a hill is 102 km/h. The driver takes her foot off of the gas pedal and allows the car to coast up the hill. If the car has the initial speed stated at a height of h = 0, the height the car can coast up a hill is 34.3 meters if work done by friction is negligible.

What is Work done?

Initial Energy = Potential Energy

Hence, the Potential Energy formula is given as:

PE = mgh

where, PE = Potential Energy (Joules)

mg = mass × gravity

h = height

Potential Energy at h = 0 is given as follows:

PE₀ = mgh₀

PE₀ = 0mg

PE₀ = 0

Potential Energy at h = 1 is given as follows:

PE₁ = mgh₁

Let's equate the two potential energies and solve for h₁:

PE₁ = PE₀ (since work done by friction is negligible)

mgh₁ = 0h₁ = 0

Therefore the height of the car that can coast up a hill is 34.3 meters if work done by friction is negligible.

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A kangaroo is capable of jumping to a height of 2.62m. Determine the takeoff speed of the kangaroo.

Answers

Answer: 7.17

Explanation:

Maximum height reached by Kangaroo H=2.62

Final velocity at the maximum height v=0

Acceleration due to gravity   g=−9.8 m/s2    

Using   v2−u2=2gH∴   0−u2=2(−9.8)(2.62)

⟹ u=2(9.8)(2.62)​=7.17 m/s

Hooke's law: Consider a plot of the displacement (x) as a function of the applied force (F) for an ideal elastic spring. The slope of the curve would be A) the mass of the object attached to the spring. B) the reciprocal of the acceleration of gravity. C) the spring constant. D) the acceleration due to gravity. E) the reciprocal of the spring constant.

Answers

Hooke's law: the slope of the curve would be the spring constant (C).

What is Hooke's law?

Hooke's law is a principle of physics which states that the force F needed to extend or compress a spring by some distance x scales linearly with respect to that distance.

F = kx

where k is the spring constant and x is the displacement of the spring.

However, the graph of the displacement (x) against the applied force (F) is linear when the applied force is within the elastic limit of the spring.

The spring constant is equivalent to the slope of the graph, which is a straight line.

Therefore, for an ideal elastic spring, the slope of the curve would be the spring constant (C).

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a 0.400 kg mass hangs from a string with a length of 0.9 m, forming a conical pendulum. the period of the pendulum in a perfect circle is 1.4 s. what is the angle of the pendulum?

Answers

A 0.400 kg mass hangs from a string with a length of 0.9 m, forming a conical pendulum. the period of the pendulum in a perfect circle is 1.4 s then the angle of pendulum is 14.68°.

Given:

Mass of the object = 0.4kg

Length of string = 0.9m

Period of conical pendulum = 1.4s

The angle of pendulum is calculated by using this formula :

T = 2π(r/g)1/2

where, T is the time period of the circular motion g is acceleration due to gravity r is radius of the circle

Let us assume, Angle made by the string with the vertical axis = αNow, Radius of circle can be given as,

R = l.sinα

Given the period of the conical pendulum as 1.4s

we can find the acceleration due to gravity as follows = 2π(r/g)1/2r = l.sinα2π(r/g)1/2 = Tg = 4π2(l.sinα)2/T2g = 4π2(l2sin2α)/T2sinα = gT2/4π2l2Sinα = (9.8 m/s2× 1.4 s2)/(4π2 × (0.9 m)2)Sinα = 0.253α = sin-1(0.253)α = 14.68°

Hence, the angle made by the string with the vertical axis is 14.68°.

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the strength of the magnetic field around a permanent magnet is strongest....

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The strength of the magnetic field around a permanent magnet is strongest at the poles of the magnet.

The magnet's two extremities at which the magnetic field lines emerge (north pole) or converge are known as the poles (south pole). Due to the magnetic field lines' close proximity to one another, the magnetic field is strongest close to the poles. The magnetic field intensity drops and the field lines stretch out as you move away from the poles. It's crucial to remember that the size and power of a permanent magnet affect how strong the magnetic field is around it. The magnetic field strength at a magnet's poles increases with magnet size and strength. The magnet's form can also have an impact on how powerful its magnetic field is. A bar magnet, for instance, will have a stronger magnetic field.

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at room temperature in a vacuum the speeds of gases are typically ________________ and vary with the inverse square of the ____________.

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At room temperature in a vacuum, the speeds of gases are typically high and vary with the inverse square of the molecular mass.

What is the speed of gas in vacuum?

Escape velocity from earth for any moving object (including gas molecules) is 11.2 kilometers per second and the fastest nitrogen molecules will travel 518 × 6 = 3108 meters per second.

Gases (like air) expand to fill the containers and in space there is no container, so it simply expands until it is the same density as space itself.

In a vacuum where there is an absence of air, air resistance can be neglected thus acceleration is constant and is only due to gravity. This tells us that the velocity of the object will keep increasing because there is no air resistance and no terminal velocity.

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how would we get mercury to be reclassified as a minor body?

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By proving that Mercury does not match the requirements for a planet as defined by the International Astronomical Union, Mercury might be reclassified as a minor body.

A planet is a celestial entity that circles the sun, is spherical in form, and has rid its orbit of other junk, according to the International Astronomical Union. Mercury may not fit this description because it is a tiny planet with a very eccentric orbit and several additional objects nearby. It would need to disprove its status as a planet in order for scientists to categorise it as a minor body. To better comprehend Mercury's orbit and the objects around, this may include more in-depth observations of Mercury and its surroundings. It may also entail conversing with the International Astronomical Union on the standards for planetary classification.

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How much force is required to accelerate a 5kg mass at 20m/s 2 ?

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Нам не дано коэффициент трения, значит, можно не учесть силу трения. От этого, по второму закону Ньютона, F=ma=5×20=100 Н.

И это всё!

What is advantage and disadvantage of horizontal and vertical axis turbine?

Answers

Answer:

Horizontal-axis (HAWT) pros

It is more effective than vertical-axis turbines, usually, vertical-axis turbines are lower to the ground, so they can't utilize the higher wind speed that is found higher above sea level.Higher efficiency: every mechanical machine will always convert its fuel into useless energy, (i.e. sound energy). They can convert more wind power into electricity than VAWTs. This is due to the blades being perpendicular to the wind.

Cons

Transportation: Due to the masts and blades being taller than VAWTs, its transportation can occasionally cost up to 25% of the equipment's price.They need a yaw control: A yaw system is the component that will be required for the direction of the rotor towards the wind.

Vertical-axis (VAWT) pros

Unlike HAWTS, a yaw system is not a necessity, nor do they even need it.The turbines can be closer together.Cheaper: As they are not as elevated as their HAWT counterparts, they do not need as much money.Do not need to be pointy towards the wind: this benefit is most prominent in places where wind direction varies frequently.

Cons

Decreased level of efficiency: In VAWTs, there will be more drag that will occur inside the blades when they rotate.

Which type of energy is stored in an elastic material stretched by a force

Answers

Potential energy is stored in the elastic material when we stretch it by some distance.

The energy stored when a force is used to deform an elastic object is called elastic potential energy. The energy is conserved until the force is released and the object returns to its original shape, doing work in the process. Objects can be compressed, stretched, or twisted when deformed.

Elastic material produces elasticity when stretched or compressed. The more the material is crushed or stretched, the greater this force.

Springs have many applications, including bed springs.

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find the current in an 8.00-v resistor connected to a battery that has an internal resistance of 0.15 v if the voltage across the battery (the terminal voltage) is 9.00 v. (b) what is the emf of the battery?

Answers

(a) The flowing current is 1.08 A. (b) The EMF of the battery is 9.16 V.

It is given data that the resistance of the resistor (R) = 8.00 V and the voltage across the battery (V) = 9.00 V. The internal resistance of the battery (r) = 0.15 V

Formula used:

V = EMF - I * rV = IR

Where, V is the terminal voltage of the battery, EMF is the electromotive force of the battery, I is the current flowing through the circuit, and R is the resistance of the resistor. r is the internal resistance of the battery

(a) The current flowing through the circuit can be calculated using the Ohm's Law.

V = IR

I = V / R

I = 9 / (8 + 0.15)

I = 1.08 A

The current flowing through the circuit is 1.08 A.

(b) Find the emf of the battery:

We know that,

V = EMF - I * r

EMF = V + I * r

EMF = 9 + 1.08 * 0.15

EMF = 9.16 V

The emf of the battery is 9.16 V.

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when you look at a spiral that appears to move inward for about a minute, and then look at a stationary object, the object will briefly appear to ......

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When you look at a spiral that appears to move inward for about a minute, and then look at a stationary object, the object will briefly appear to move outwards. This phenomenon is known as the motion aftereffect (MAE).

After staring at the spiral for about a minute, your brain becomes accustomed to the constant motion of the spiral. When you look away from the spiral and fix your gaze on a stationary object, your brain continues to perceive motion in the opposite direction (outwards).

This is why the stationary object appears to move outwards for a brief period. The motion aftereffect is an example of the adaptation process that takes place in the visual system. It is a perceptual illusion that occurs when the brain is exposed to a particular type of visual stimulus for a prolonged period of time.

Hence, when you look at a spiral that appears to move inward for about a minute, and then look at a stationary object, the object will briefly appear to move outwards.

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a nichrome wire 42 cm long and 0.28 mm in diameter is connected to a 2.1 v flashlight battery. why dont you have to know how the wire is bent

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A Nichrome wire 42 cm long and 0.28 mm in diameter is connected to a 2.1 V flashlight battery. You don't have to know how the wire is bent because it doesn't affect the resistance of the wire.

Nichrome is a type of resistance wire made from a nickel-chromium alloy. It has a high melting point and can withstand high temperatures. Nichrome wire is commonly used in heating elements, such as those found in toasters and hairdryers. The resistance of a wire depends on its length, cross-sectional area, and resistivity.

The resistance of a wire is given by the formula:

R = (ρl)/AWere,ρ = resistivity

l = length of wire

A = cross-sectional area of the wire

Resistance is directly proportional to the length of the wire and inversely proportional to the cross-sectional area of the wire. Therefore, a longer and thinner wire will have a higher resistance than a shorter and thicker wire. The resistivity of the material is also an important factor that affects the resistance of a wire.Since the length and diameter of the Nichrome wire are given, the resistance of the wire can be calculated using the formula mentioned above. Once the resistance is known, the current flowing through the wire can be calculated using Ohm's law. The voltage of the battery is also given, so the power dissipated by the wire can be calculated. The way the wire is bent does not affect its resistance or other electrical properties, so it is not necessary to know how it is bent.

Therefore, you do not have to know how the Nichrome wire is bent in order to calculate the current through the wire connected to a 2.1V flashlight battery.

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Determine the relationship which governs the velocities of the three cylinders, and state the number of degrees of freedom. Express all velocities as positive down.

If vA = 2. 47 m/s and vC = 1. 08 m/s, what is the velocity of B?

Answers

If v_A = 2. 47 m/s and v_C = 1. 08 m/s, So the velocity of B is -1.1575 m/s.

Write the equation for the length of the cable between the pulleys E and F.

[tex]L_1[/tex] = a+2y+π[tex]r_2[/tex]+ π[tex]r_1[/tex] + x

Differentiate the equation with respect to time.

0=2y+x

Write the equation for the length of the cable between the pulleys H and F.

[tex]L_2[/tex] = p +π[tex]r_4[/tex]+z+π[tex]r_3[/tex] +(z - y)

= p +π[tex]r_4[/tex] +2z+π[tex]r_3[/tex] - y

Differentiate the equation with respect to time.

0 = p + 2ż - y

y=p+2ż

x+2y=0

x+2(p+2ż)=0

x+2p+4z=0

[tex]v_A[/tex]+2[tex]v_c[/tex]+4[tex]v_B[/tex]=0

(2.47)+2(1.08)+4[tex]v_B[/tex] = 0

[tex]v_B = - \frac{ ((2.47)+2(1.08))}{4}[/tex]

[tex]v_B[/tex] = -1.1575 m/s

As two variables are required to specify the positions of all parts of

the system, y=p+2ż

DOF = 2

Velocity is a physical quantity that describes the rate at which an object changes its position in a given period of time. The magnitude of velocity is the speed at which the object is moving, while the direction of velocity is the direction in which the object is moving. It can also be expressed in other units such as miles per hour (mph), kilometers per hour (km/h), or feet per second (ft/s).

Velocity is a fundamental concept in classical mechanics and is used extensively in physics, engineering, and other fields of science. It is often used to calculate the displacement of an object, the distance traveled by the object over a given time, and the acceleration of the object.

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