A circular hoop of mass m, radius r, and infinitesimal thickness rolls without slipping down a ramp inclined at an angle θ with the horizontal. a. what is the acceleration αα of the center of the hoop? b. what is the minimum coefficient of (static) friction μminμmin needed for the hoop to roll without slipping?

Answers

Answer 1

The acceleration (α) of the center of the hoop: α = (mg * sin(θ)) / (2m) = (g * sin(θ)) / 2

The minimum coefficient of static friction (μmin) needed for the hoop to roll without slipping: μmin = α / (g * cos(θ)) = (g * sin(θ) / 2) / (g * cos(θ)) = tan(θ) / 2

The acceleration (α) of the center of the circular hoop can be determined by applying Newton's second law and the principle of conservation of angular momentum. Considering gravitational force (mg), normal force (N), and friction force (f) acting on the hoop, we can write:

mg * sin(θ) - f = m * α (1) (linear motion) and f * r = I * α/r (2) (angular motion)

For a hoop, the moment of inertia (I) is given by I = m * r^2. Substituting this into equation (2) and solving for f, we get:

f = m * α (3)

Now, substitute equation (3) into equation (1):

mg * sin(θ) - m * α = m * α

Rearranging the terms, we get the acceleration (α) of the center of the hoop:

α = (mg * sin(θ)) / (2m) = (g * sin(θ)) / 2

For the hoop to roll without slipping, the static friction (f) must be equal to the torque acting on the hoop. The minimum coefficient of static friction (μmin) can be determined using the frictional force equation:

f = μmin * N

Since the normal force (N) equals mg * cos(θ), the frictional force can be written as:

f = μmin * mg * cos(θ)

Now, substituting f = m * α from equation (3) into this equation, we get:

m * α = μmin * mg * cos(θ)

Rearranging the terms, we find the minimum coefficient of static friction (μmin) needed for the hoop to roll without slipping:

μmin = α / (g * cos(θ)) = (g * sin(θ) / 2) / (g * cos(θ)) = tan(θ) / 2

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Related Questions

which skater, if either, has the greater momentum after the push-off? explain. match the words in the left column to the appropriate blanks in the sentences on the right.

Answers

The answer to Part A is that Ricardo has a larger magnitude momentum than Paula after the push-off. According to the law of conservation of momentum, the total momentum of an isolated system remains constant if no external forces are acting on it.

In this case, we can consider Paula and Ricardo as an isolated system since no external forces are acting on them during the push-off. Initially, the total momentum of the skaters is zero since they are at rest. After the push-off, the skaters move in opposite directions, and their momenta have opposite signs. However, the total momentum of the system must still be conserved.

Since Ricardo weighs more than Paula, he has a greater mass. Therefore, if both skaters push off with the same force, Ricardo will have a smaller velocity than Paula after the push-off. However, since momentum is a product of mass and velocity, we need to consider both factors to determine who has the greater momentum.

After the push-off, the total momentum of the system is non-zero and has the same magnitude for both skaters but opposite signs. Therefore, the magnitude of Ricardo's momentum must be greater than Paula's momentum, since he has a greater mass, and their velocities have opposite signs.

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Complete question:

Two ice skaters, Paula and Ricardo, initially at rest, push off from each other. Ricardo weighs more than Paula. Part A Which skater, if either, has the greater momentum after the push-off? Explain. Match the words in the left column to the appropriate blanks in the sentences on the right. Reset Help zero Initially, the total momentum of the skaters is since they are at rest. After the push-off, the total momentum Therefore, Ricardo has after the push-off. non-zero increases decrease remains the same a larger magnitude momentum than Paula a smaller magnitude momentum than Paula the same magnitude momentum as Paula Submit Request Answer

A second pendulum made of brass keeps correct time at 10°C. How many seconds will it lose or gain per Day when the temperature of its surroundings rises to 35°C?​

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The brass pendulum will lose or gain approximately 0.0015 seconds per day when the temperature of its surroundings rises from 10°C to 35°C

Calculation on the pendulum

The time period of a pendulum is given by the formula:

T = 2π√(L/g)

where T is the time period, L is the length of the pendulum, and g is the acceleration due to gravity.

Since both pendulums have the same length and are located in the same gravitational field, their time periods are equal. Therefore, the time gained or lost by the brass pendulum due to the change in temperature can be calculated using the following formula:

ΔT = T × α × ΔT

where ΔT is the change in temperature, α is the coefficient of linear expansion of brass, and T is the original time period.

The coefficient of linear expansion of brass is approximately 19 × 10^-6 /°C.

Substituting the values given in the problem, we get:

ΔT = T × α × ΔT

= (2π√(L/g)) × (19 × 10^-6 /°C) × (35 - 10) °C

= 2π√(L/g) × (0.000019) × (25) °C

= 2π√(L/g) × 0.000475

Assuming a standard pendulum length of 1 meter, the time gained or lost by the brass pendulum can be calculated as follows:

ΔT = 2π√(L/g) × 0.000475

= 2π√(1/9.81) × 0.000475

0.0015 seconds

Therefore, the brass pendulum will lose or gain approximately 0.0015 seconds per day when the temperature of its surroundings rises from 10°C to 35°C.

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a particle of mass m is embedded at a distance r/4 from the center of a massless circular disc of radius r which can roll without slipping down a plane inclined at an angle a with the horizontal. Use the Lagrangian method to write the dif- ferential equation of motion for the system

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The differential equation of motion for the system using the Lagrangian method is D²θ/Dt² + (g/[(19/8) r]sin α)θ = 0.

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The differential equation of motion for the system is given by the Lagrangian method when a particle of mass m is embedded at a distance r/4 from the center of a massless circular disc of radius r that can roll without slipping down a plane inclined at an angle a with the horizontal. Using the Lagrangian method, the differential equation of motion for

the system is given as follows:L = T - VL = [1/2 m(r² + (r/4)²)ω² + 1/2 Iω²] - mgrsin(α)r/4Here, I = [1/2 m(r/2)²] + m(r/4)²I = [1/2 m(r²/4 + r²/16)] + m(r²/16)I = m(r²/8)Therefore, I = mr²/4Then, the expression of Lagrangian can be given as:L = [1/2 m(r² + r²/16)ω² + 1/2 (mr²/4)ω²] - mgrsin(α)r/4L = [1/2 m(17r²/16)ω² + (1/8)mω²] - mgrsin(α)r/4L = [1/8 mω²(17r² + 2r²) - mgrsin(α)r/4]L = [1/8 mω²(19r²) - mgrsin(α)r/4]So, the Lagrangian equation of motion for the system is given as:D²θ/Dt² + (g/[(19/8) r]sin α)θ = 0

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A 14.0 kg stone slides down a snow-covered hill (the figure (
Figure 1)), leaving point A with a speed of 12.0 m/s. There is
no friction on the hill between points A and B, but there is friction
on the level ground at the bottom of the hill, between B and the
wall. After entering the rough horizontal region, the stone travels
100 m and then runs into a very long, light spring with force
constant 2.10 N/m. The coefficients of kinetic and static friction
between the stone and the horizontal ground are 0.20 and 0.80,
respectively.
how far will the stone compress the spring?

Answers

To find the distance that the stone will compress the spring, we need to use conservation of energy. At point A, the total mechanical energy of the system is:

E = (1/2)mv^2

where m is the mass of the stone and v is its velocity at point A. We can calculate this as:

E = (1/2)(14.0 kg)(12.0 m/s)^2 = 1008 J

As the stone slides down the hill, it loses potential energy but gains kinetic energy. At point B, all of the stone's potential energy has been converted to kinetic energy, so we can write:

E = (1/2)mv^2

where v is the velocity of the stone at point B. We can solve for v as follows:

v = sqrt(2E/m) = sqrt(2(1008 J)/(14.0 kg)) = 12.0 m/s

Next, the stone encounters friction on the level ground between points B and the wall. The work done by friction is equal to the force of friction times the distance traveled:

W_friction = f_friction * d

where f_friction is the force of friction and d is the distance traveled. The force of friction is given by:

f_friction = µ_k * m * g

where µ_k is the coefficient of kinetic friction, m is the mass of the stone, and g is the acceleration due to gravity. Substituting values, we get:

f_friction = 0.20 * 14.0 kg * 9.81 m/s^2 = 27.7 N

The work done by friction is equal to the initial kinetic energy of the stone minus the final kinetic energy:

W_friction = (1/2)mv_B^2 - (1/2)mv_C^2

where v_B is the velocity of the stone at point B and v_C is its velocity just before hitting the spring. Solving for v_C, we get:

v_C = sqrt(v_B^2 - 2W_friction/m) = sqrt((12.0 m/s)^2 - 2(27.7 N * 100 m)/(14.0 kg)) = 9.31 m/s

Finally, we can calculate the distance that the stone compresses the spring using Hooke's law:

F_spring = -kx

where F_spring is the force exerted by the spring, k is the spring constant, and x is the distance that the spring is compressed. The force exerted by the spring is equal to the force required to decelerate the stone from v_C to zero:

F_spring = ma = m(v_C - 0)/t = mv_C/t

where t is the time it takes for the stone to come to a stop. We can calculate t using the equation:

v_C = at

where a is the acceleration of the stone, which is equal to -F_spring/m. Substituting values, we get:

t = v_C/(-F_spring/m) = -mv_C/k = -(14.0 kg)(9.31 m/s)/(2.10 N/m) = -62.4 s

(Note that the negative sign indicates that the force of the spring is opposite in direction to the motion of the stone.)

Substituting t into the equation for x, we get:

x = F_spring/k = (mv_C/t)/k = -(14.0 kg)(9.31 m/s)/(-62.4 s)(2.10 N/m) = 0.098 m

Therefore, the stone will compress the spring by 0.098 m.

a two-dimensional uniform flow of water passes over a bump as shown. the flow is slow enough that the water surface remains flat. a weak vortex containing vorticity of strength 10 [1/sec] lying along a vertical axis is introduced upstream of the bump. you may ignore viscous effects. the flow is from right to left. which sketch is true? explain in dropbox.

Answers

The sketch that is true is given in option (c). a weak vortex containing vorticity of strength 10 [1/sec] lying along a vertical axis is introduced upstream of the bump.

A vortex is a region in a fluid in which the flow revolves around an axis line, the fluid motion in a vortex is smooth, continuous, and follows a curved path around the axis. In this problem, a weak vortex containing vorticity of strength 10 [1/sec] lying along a vertical axis is introduced upstream of the bump. The flow is two-dimensional, uniform, and slow enough that the water surface remains flat. Ignoring viscous effects, the water flow from right to left passes over a bump. We have to find the correct sketch of the flow.

In a 2D uniform flow of water passing over a bump, the streamlines deflect slightly in front of and behind the bump. They converge before the bump and diverge behind the bump, forming eddies that eventually dissipate. A vortex in the flow will also form an eddy, which will interact with the eddies from the bump. This will result in a complex flow pattern. The sketch that shows the complex flow pattern and a weak vortex upstream of the bump is option (d). Hence, the correct answer is option (c).

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how does the number of lines in the emission spectrum for element compare with the number of lines in the absorption spectrum ?

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The number of lines in the emission spectrum for an element compares with the number of lines in the absorption spectrum in that they are generally equal. When an element is heated, it emits light at specific wavelengths, creating an emission spectrum. Conversely, when light passes through a cool gas of that element, the same wavelengths of light are absorbed, creating an absorption spectrum.

1. An element is heated, and its electrons gain energy and move to higher energy levels.
2. The heated element emits light at specific wavelengths, creating an emission spectrum with distinct lines.
3. When light passes through a cool gas of the same element, electrons absorb the energy from the light and move to higher energy levels.
4. The absorbed wavelengths of light create an absorption spectrum with distinct lines.
5. The emission and absorption spectra for a given element have the same number of lines, as they represent the same energy level transitions within the element's electrons.

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Which of the following statements BEST predicts the outcome of the chemical reaction?

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Answer:

Explanation:

what are the statement

Gibb's and Helmholtz equations predicts the direction and spontaneity of chemical reactions.

What is Gibb's and Helmholtz equation ?

The Gibbs-Helmholtz equation is a thermodynamic equation that is used to calculate changes in a system's Gibbs free energy as a function of temperature. It explains how the Gibbs free energy, first proposed by Josiah Willard Gibbs, fluctuates with temperature.

Gibb's and Helmholtz equation is given by,

[tex](\frac{\partial(\frac{G}{T}) }{\partial T} )}}\right)_{p}=-{\frac {H}{T^{2}}},}[/tex]

where T is the absolute temperature, H is the enthalpy, and G is the Gibbs free energy of the system, all under constant pressure p. According to the equation, the change in the G/T ratio under constant pressure as a result of an infinitesimally small change in temperature is a factor H/T2.

There is insufficient information about this problem, however the problem may be like this.

As a result, the direction and spontaneity of chemical processes are predicted by the Gibbs and Helmholtz equations. As a result, the answer is the Gibbs and Helmholtz equations.

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consider the situation shown. a triangular, aluminum loop is slowly moving to the right. eventually, it will enter and pass through the uniform magnetic field region represented by the tails of arrows directed away from you. initially, there is no current in the loop. when the loop is exiting the magnetic field, what will be the direction of any induced current present in the loop?

Answers

The induced current will flow in a clockwise direction to oppose the change in magnetic flux that produced it.

When the loop is exiting the magnetic field, any induced current present in the loop will flow in a clockwise direction. A triangular aluminum loop that is slowly moving to the right enters and passes through a uniform magnetic field region represented by the tails of arrows directed away from you, and it has no current in the loop initially.

What is electromagnetic induction?Electromagnetic induction is the phenomenon where an electromotive force (emf) or a current is generated in a conductor exposed to a varying magnetic field.

An electric current is created if there is relative motion between the conductor and the magnetic field. When a magnetic field is applied to a conductor, the electrons in the conductor are influenced by the magnetic field, causing them to move,

resulting in the creation of an electric current.The direction of an induced current is determined by Lenz's law, which states that the direction of an induced current is such that it opposes the change in magnetic flux that generated it. In this situation, when the loop is exiting the magnetic field,

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A 0.7 kg mass is attached to an ideal spring with a constant of 86 N/m. The mass is initially held at rest so that the spring is at its unextended length of 0.95 m. The mass is then released. What is the maximum distance the mass will fall?

Answers

Since the mass is attached to an ideal spring, the system will undergo simple harmonic motion. The maximum distance the mass will fall is equal to the amplitude of the oscillation.

The period of oscillation can be calculated as:

T = 2π√(m/k)

where m is the mass and k is the spring constant.

Substituting the given values, we get:

T = 2π√(0.7 kg / 86 N/m) ≈ 0.887 s

The maximum distance the mass will fall is equal to half the amplitude of the oscillation, which can be calculated using the equation:

x = A cos(2πt/T)

where x is the displacement of the mass from its equilibrium position at time t, and A is the amplitude of oscillation.

At the maximum displacement, cos(2πt/T) will be equal to -1. Therefore,

A = -x

The velocity of the mass at the maximum displacement will be zero. Therefore, the total energy of the system will be equal to the potential energy at the maximum displacement:

1/2 k A^2 = m g A

where g is the acceleration due to gravity.

Solving for A, we get:

A = (m g / k) = (0.7 kg x 9.81 m/s^2) / 86 N/m ≈ 0.0807 m

Therefore, the maximum distance the mass will fall is approximately 0.0807 m.

Which one is greater among 40°C, 40°F and 40K?​

Answers

Answer:

To compare these temperatures, we need to convert them to the same unit of temperature.

To convert Celsius (°C) to Kelvin (K), we add 273.15 to the Celsius value.

40°C + 273.15 = 313.15 K

To convert Fahrenheit (°F) to Celsius (°C), we can use the formula:

°C = (°F - 32) * 5/9

So,

40°F = (40 - 32) * 5/9 = 4.44°C

Now, we can convert 4.44°C to Kelvin using the formula:

4.44°C + 273.15 = 277.59 K

So the order from smallest to largest temperature is:

40°F < 4.44°C < 40°C < 277.59 K

Therefore, 40K is the greatest temperature among the three.

the absorption of infrared radiation by atmospheric gases and the random re-radiation of the energy back towards earth and into space is known as

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The process of absorbing infrared radiation by atmospheric gases and then randomly re-radiating the energy back towards Earth and into space is referred to as the greenhouse effect.

This is a natural phenomenon that helps to regulate the Earth's temperature and make it habitable.Infrared radiation is a type of electromagnetic radiation that has longer wavelengths than visible light. The Sun emits this type of radiation, which is absorbed by the Earth's surface and then re-radiated back into the atmosphere as heat.

Greenhouse gases in the atmosphere, such as carbon dioxide, water vapor, methane, and nitrous oxide, absorb some of this heat and re-radiate it back towards the Earth. This results in a warming effect known as the greenhouse effect. It is known as the greenhouse effect because it operates in a similar manner to a greenhouse.

A greenhouse traps heat by allowing sunlight to enter but preventing heat from escaping. Similarly, greenhouse gases trap heat in the atmosphere by allowing sunlight to enter but preventing heat from escaping into space.

The greenhouse effect is a natural and necessary process that keeps the Earth's temperature at a suitable level for human habitation.

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which type of scale has all the properties of an interval scale with the additional attribute of representing absolute quantities, characterized by a meaningful absolute zero?

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The type of scale that has all the properties of an interval scale with the additional attribute of representing absolute quantities, characterized by a meaningful absolute zero, is a ratio scale.

The type of scale that has all the properties of an interval scale with the additional attribute of representing absolute quantities, characterized by a meaningful absolute zero is a ratio scale. In a ratio scale, the values not only have an order and equal intervals but also a true, non-arbitrary zero point.

This means that ratios of values are meaningful, and one can meaningfully say that a value is, for example, twice or half of another value. Examples of ratio scales include measurements of weight, length, time, temperature in Kelvin, and counts of discrete objects. Ratio scales provide the most precise and informative type of measurement and are widely used in scientific and statistical analysis.

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imagine that radar had never been invented and that we instead had to rely on a less reliable method of measuring distances in our solar system. if that method led us to underestimate the earth-sun distance by 10%, how would it affect other measurements in the distance chain?

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Underestimating the Earth-Sun distance by 10% would lead to a 10% error in all other measurements in the distance chain within our solar system, which would significantly impact our understanding of the size and scale of our solar system.

If radar had never been invented and we relied on a less reliable method of measuring distances in our solar system, underestimating the Earth-Sun distance by 10% would significantly affect other measurements in the distance chain.
Step 1: Determine the underestimated Earth-Sun distance
The actual Earth-Sun distance, also known as 1 astronomical unit (AU), is approximately 149.6 million kilometres. If we underestimated this distance by 10%, the measured distance would be:
149.6 million km * 0.9 = 134.64 million km
Step 2: Understand the impact on other measurements
Distances within our solar system are often measured using astronomical units (AU). If our measurement of 1 AU is off by 10%, then all other distance measurements based on this unit will also be off by 10%. This would impact our understanding of the size and scale of our solar system.
Step 3: Apply the error to other distance measurements
For example, the distance between Earth and Mars, on average, is about 225 million kilometers, or 1.52 AU. If our measurement of 1 AU was 10% less, we would underestimate the Earth-Mars distance as well:
1.52 AU * 134.64 million km = 204.656 million km (incorrect measurement)
The actual Earth-Mars distance would still be 225 million km, but our underestimated measurements would make us believe that it is only 204.656 million km.

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An object moving at a constant speed requires 6.0 s to go once around a circle with a diameter of 4.0 m. What is the magnitude of the instantaneous acceleration of the particle during this time? a. 2.2 m/s^2 b. 2.7 m/s^2 c. 3.3 m/s^2 d. 3.8 m/s^2 e. 4.4 m/s^2

Answers

The magnitude of the instantaneous acceleration of the object during this time is approximately 2.2 m/s^2 (option a).

To find the magnitude of the instantaneous acceleration of the object moving in a circle, we will first find the object's speed and then use the formula for centripetal acceleration. Here's a step-by-step explanation:

1. Determine the circle's radius:
The diameter of the circle is given as 4.0 m, so the radius (r) is half of that: r = 4.0 m / 2 = 2.0 m.

2. Calculate the circumference of the circle:
Circumference (C) = 2 * π * r = 2 * π * 2.0 m ≈ 12.57 m.

3. Calculate the object's speed:
The object takes 6.0 s to go once around the circle. Therefore, its speed (v) is the circumference divided by the time: v = C / t = 12.57 m / 6.0 s ≈ 2.095 m/s.

4. Calculate the centripetal acceleration:
The formula for centripetal acceleration (a_c) is a_c = v^2 / r. Substitute the values of v and r into the formula: a_c = (2.095 m/s)^2 / 2.0 m ≈ 2.2 m/s^2.

So, the magnitude of the instantaneous acceleration of the object during this time is approximately 2.2 m/s^2 (option a).

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the north pole of a magnet is moved toward a copper loop, as shown below. if you are looking at the loop from above the magnet, will you say the induced current is circulating clockwise, counterclockwise, or is equal to 0?

Answers

When the north pole of a magnet is moved toward a copper loop, if you are looking at the loop from above the magnet, you will say the induced current is circulating counter clockwise.

An induced current is a current that is generated when a magnetic field moves through a conductor or wire loop. When the magnetic field lines cut across a wire loop or conductor, it generates a voltage across the loop, causing an electric current to flow through it, which is known as an induced current.

The direction of the induced current is dependent on the polarity and direction of the magnetic field lines and the direction of motion of the magnetic field relative to the wire loop.

To determine the direction of the induced current, we must use the right-hand rule, which states that if the thumb of your right hand points in the direction of the magnetic field line, and your fingers wrap around the wire loop in the direction of motion of the magnetic field,

then the direction of the induced current in the wire loop is determined by the direction of your extended fingers.

In this case, the north pole of the magnet is moving toward the copper loop, which generates a magnetic field in the wire loop in the opposite direction to that of the north pole of the magnet. As a result, the induced current will circulate counterclockwise through the copper loop if you are looking at it from above the magnet.

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7. (a) How much heat energy would be required to convert 2.5kg of ice at 10 °C to steam at 100 °C?​

Answers

Answer:

the answer up top is correct

forces and motion until test for physical science eginuity credit recovery ????

Answers

Forces and motion are fundamental concepts in physics that help us understand the behavior of objects in motion. Forces can cause objects to accelerate, change direction, or stop moving altogether.

The three laws of motion proposed by Sir Isaac Newton provide a framework for understanding how forces affect motion. The first law states that an object at rest will stay at rest, and an object in motion will stay in motion, unless acted upon by an external force. The second law states that the acceleration of an object is directly proportional to the net force acting on the object and inversely proportional to its mass. The third law states that every action has an equal and opposite reaction. To test these concepts in physical science, experiments can be designed to measure the effects of forces on motion, such as the acceleration of objects on inclined planes, the motion of objects in free fall, or the forces involved in collisions.

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The complete question is

Forces and motion until test for physical science eginuity credit recovery ?

an 80.0 kg skydiver jumps out of a balloon at an altitude of 1000 m and opens the parachute at an altitude of 200.0m (A). Assuming that the total resisting force on the driver is constant at 50.0 N with the parachute closed and constant at 3 600 N with the parachute open, what is the speed of the driver when he lands on the ground?(B) do you think the skydiver will get hurt? explain(C) At what height should the parachute be opened so that the final speed of the skydiver when he hits the ground in 5.00 m/s?(d) how realistic is the assumption that the total resisting force is constant? explain

Answers

ANSWERS:

A.
38.3 m/s
B.
Yes. 38.3 m/s is a very high speed and could potentially cause serious injury or death
C.
656.1 m
D.
Not very realistic. The resisting force depends on the speed of the skydiver.

EXPLANATIONS:

(A)
To solve for the speed of the skydiver when he lands on the ground, we can use conservation of energy. The initial potential energy of the skydiver is equal to the final kinetic energy plus the final potential energy.

Initial potential energy = mgh1 = 80.0 kg x 9.8 m/s^2 x 1000 m = 784000 J

Final potential energy = mgh2 = 80.0 kg x 9.8 m/s^2 x 200.0 m = 156800 J

With the parachute closed, the total resisting force is 50.0 N, so we can use the work-energy principle to find the final kinetic energy:

Work done by resisting force = Fd = 50.0 N x (1000 m - 200 m) = 40000 J

Final kinetic energy = Initial potential energy - Work done by resisting force - Final potential energy

Final kinetic energy = 784000 J - 40000 J - 156800 J = 587200 J

Finally, we can solve for the speed using the equation for kinetic energy:

Final kinetic energy = (1/2)mv^2

587200 J = (1/2)(80.0 kg)v^2

v = sqrt(1468 m^2/s^2) = 38.3 m/s

Therefore, the speed of the skydiver when he lands on the ground is 38.3 m/s.

(B) It's difficult to say whether the skydiver will get hurt based solely on the speed of impact. However, 38.3 m/s is a very high speed and could potentially cause serious injury or death. Other factors, such as the angle of impact and the condition of the ground, would also affect the outcome.

(C) We can use the same conservation of energy equation as in part (A), but solve for the height at which the parachute should be opened to achieve a final speed of 5.00 m/s.

Initial potential energy = mgh1 = 80.0 kg x 9.8 m/s^2 x h1

Final potential energy = mgh2 = 80.0 kg x 9.8 m/s^2 x 0

With the parachute open, the total resisting force is 3600 N, so we can use the work-energy principle to find the work done by the resisting force:

Work done by resisting force = Fd = 3600 N x (h1 - 0) = 3600h1 J

Then we can solve for the height using the equation:

Initial potential energy - Work done by resisting force = Final kinetic energy + Final potential energy

mgh1 - 3600h1 = (1/2)mv^2 + 0

Simplifying and solving for h1:

h1 = (v^2)/(2g) + 3600/g = (5.00 m/s)^2 / (2 x 9.8 m/s^2) + 3600/9.8 = 656.1 m

Therefore, the parachute should be opened at a height of 656.1 m to achieve a final speed of 5.00 m/s.

(D) The assumption that the total resisting force is constant is not very realistic because the resisting force depends on the speed of the skydiver. As the skydiver falls faster, the resisting force will increase due to air resistance. Therefore, the actual speed of the skydiver with the parachute closed and the actual speed with the parachute open would not be constant.

what types of exoplanets are easiest to detect with the transit method? group of answer choices large planets far from their host stars hot planets far from their host stars large planets close to their host stars hot planets close to their host stars

Answers

The types of exoplanets that are easiest to detect with the transit method are: large planets close to their host stars and hot planets close to their host stars.

What is an exoplanet, An exoplanet or extrasolar planet is a planet that orbits a star outside of the Solar System's planetary system. It is detected indirectly by measuring its gravitational influence on its host star, its thermal or other radiation, or the effects of its atmosphere on the light from its host star as it passes through it.

What is the transit method, The transit method is one of the ways that exoplanets can be detected. It entails detecting a dip in a star's brightness when an exoplanet passes in front of it. A change in the star's apparent brightness is caused by the decrease in the amount of light reaching the observer due to the exoplanet being in the way.

What types of exoplanets are easiest to detect with the transit method, The transit method is most effective for detecting large planets close to their host stars or hot planets close to their host stars. This is due to the fact that such exoplanets are more likely to cause a significant decrease in their host star's brightness when they transit. As a result, smaller exoplanets or those far from their host stars may be difficult to detect with this technique.

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What type of water is most of the water on the earth?
A.
saltwater
B.
groundwater
C.
lake water
D.
freshwater

Answers

Answer:

Saltwater

Explanation:

Because of the oceans.

Answer:

A: Saltwater

Explanation:

97% of all water on earth is saltwater.

which of the following is not a form of kinetic energy a. thermal energy b. mechanical energy c. elastic energy d. sound energy

Answers

Answer down below:

C: Elastic energy

Elastic energy is a form of potential energy, because it is stored in the bonds between atoms in an object or substance when it is temporarily under stress. This stress could be due to the object being stretched or squashed.

c. Elastic energy is not a form of kinetic energy.

What is kinetic energy?

Kinetic energy is the energy generated by an object's movement or motion. It's the energy stored in moving objects, and it's dependent on the object's mass and speed. As the object's mass and velocity rise, so does the amount of kinetic energy it possesses.

Types of kinetic energy include:

Mechanical energy: The total energy stored in a moving object's position and motion is known as mechanical energy.

Thermal energy: Thermal energy is the energy that results from the motion of particles in a substance. The greater the speed of the particles, the greater the thermal energy.

Sound energy: The energy created by the vibration of an object is known as sound energy. It travels in the form of waves through the air.

Elastic energy: Elastic energy is the energy kept in an object when it is compressed or extended. For instance, when you extend a rubber band or compress a spring, the energy stored in them is elastic energy.

Therefore, from the given options, elastic energy is not a type of kinetic energy.

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the diagram below illustrates the geometry of lunar phases with the moon shown in 8 positions in its orbit. which numbered position with a first quarter moon?

Answers

The diagram you are referring to demonstrates the various Lunar phases as the Moon orbits Earth. To identify the numbered position representing the first quarter moon, let's understand the different lunar phases.



The primary lunar phases are:

1. New Moon
2. First Quarter
3. Full Moon
4. Last Quarter

These phases occur as the Moon orbits Earth, with the illuminated side of the Moon (the side facing the Sun) changing based on its position relative to Earth.

In the case of the first quarter moon, it occurs when the Moon has completed one-quarter of its orbit around Earth since the new moon. During this phase, half of the Moon's illuminated side is visible from Earth, making it appear as a semicircle in the sky.

Now, let's consider the numbered positions in the diagram:

1. New Moon - Moon is between Earth and the Sun, and its illuminated side is facing away from Earth.
2. Waxing Crescent - A small part of the illuminated side is visible, as the Moon moves away from the New Moon position.
3. First Quarter - The Moon has completed one-quarter of its orbit, and half of the illuminated side is visible from Earth.
4-7. Waxing Gibbous, Full Moon, Waning Gibbous, and Last Quarter - Other positions/phases as the Moon continues its orbit.
8. Waning Crescent - The Moon is almost back to its New Moon position.

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what is the speed of a wave with a frequency of 2 Hertz and a wavelength of 87 m?

0.023 m/s
43.5 m/s
89 m/s
174 m/s

Answers

Answer:

The answer to your problem is, D. 174 m/s

Explanation:

Formula:

wave speed = frequency * wavelength

Speed of wave = 2Hz × 87m ( Look at question for the numbers )

Speed of wave = 174m/s

Simple math..

Thus the answer to your problem is, 174m/s

an object with mass m is suspended at rest from a spring with a spring constant of 200 n/m . the length of the spring is 5.0 cm longer than its unstretched length l, as shown above. a person then exerts a force on the object and stretches the spring an additional 5.0 cm. what is the total energy stored in the spring at the new stretched length?

Answers

The total energy stored in the spring at the new stretched length is 2.25 Joules.

The potential energy stored in a spring is given by the formula:

U = (1/2) k x²

where U is the potential energy, k is the spring constant, and x is the displacement from the equilibrium position. Initially, the spring was stretched by 5.0 cm, so its displacement from the equilibrium position is x = 0.05 m + 0.05 m = 0.10 m.

The force applied to stretch the spring is given by Hooke's law, F = kx, where F is the force applied, k is the spring constant, and x is the displacement from the equilibrium position. The force applied to stretch the spring by an additional 5.0 cm is,

F = kx = (200 N/m)(0.05 m) = 10 N

The total displacement of the spring is now x = 0.10 m + 0.05 m = 0.15 m. The total potential energy stored in the spring is:

U = (1/2) k x² = (1/2)(200 N/m)(0.15 m)² = 2.25 J

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Question 12 (1 point)
Jared has been running in the park on a hot day when he feels his legs begin
spasming in an unusual way. He feels shaky. He thinks back to what he learned in
fitness class about heat emergencies for what to do. What should Jared do FIRST?
Run home to take a cold shower.
Find a cool place to rest.
Begin stretching carefully.
Buy a sports drink with electrolytes.

Answers

Find a cool place to rest. It is important for Jared to get out of the heat and lower his body temperature as quickly as possible.

What is temperature?

Temperature is a physical property of matter that is a measure of the average kinetic energy of the particles in a substance. It is the measure of hot and cold, and is usually expressed in terms of the Celsius, Fahrenheit, or Kelvin scale. Temperature affects the state of matter, and can be used to determine whether a substance is solid, liquid, or gas. Additionally, temperature affects the rate of chemical reactions, and can be used as a metric in which to measure the amount of energy being released or absorbed. Temperature is very important to all forms of life, as living organisms rely on temperature to survive and thrive.

Taking a cold shower, stretching and replenishing electrolytes can all happen after he finds a cool place to rest.

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You will pilot your drone through a series of obstacles. While doing so one of your rescue team members will document the time it takes you to fly from one obstacle to the next. That data will be populated in the following table:

My data table

(position) (distance) (time) (type of maneuver)

(Start to obstacle 1) (13’6”) (9 seconds) (around)

(obstacle 1 to obstacle 2) (31’1”) (20 seconds) (under)

(Obstacle 2 to obstacle 3) (27’3”) (38 seconds) (Precision landing)

(Obstacle 3 to End) (35’6”) (13 seconds) (Precision landing)



You will now present your data using three visual tools. You may create these illustrations using any tools you like Import pictures of your work into this performance task.

I only need someone to do me a graph for Position - Velocity Graph

Answers

The graph will be such that a blue line represents the position of the drone over time, while the orange line represents its velocity.

How to explain the graph

A position-velocity graph, also known as a PV graph or a phase space plot, is a graphical representation of an object's position and velocity over time. It is a two-dimensional graph where the x-axis represents position and the y-axis represents velocity.

As you can see, the drone starts off relatively slow, then accelerates quickly to reach its maximum velocity during the second maneuver, before slowing down again for the final two maneuvers.

This graph gives a visual representation of how the drone's position and velocity change over time during the course of the obstacles.

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a 10-kg dog is runnng with a speed of 5.0 m/s. what is the minimum work required to stop the dog in 2.40 seconds? group of answer choices 125 j 75 j 50 j 100 j

Answers

The minimum work required to stop a 10-kg dog running with a speed of 5.0 m/s in 2.40 seconds is 125 J .

We are given that a 10-kg dog is running with a speed of 5.0 m/s. We need to find the minimum work required to stop the dog in 2.40 seconds. Work done to stop the dog = change in kinetic energy of the dog.

Let the initial velocity of the dog be u = 5.0 m/s.

The final velocity of the dog when it is stopped is v = 0 m/s.

The mass of the dog is m = 10 kg. Work done = 1/2 × m × (v² - u²).

Work done = 1/2 × 10 × (0² - 5.0²)Work done = 1/2 × 10 × (-25)

Work done = -125 J.

We get a negative value for the work done because the direction of work is opposite to the direction of motion of the dog. Therefore, the minimum work required to stop the dog in 2.40 seconds is 125 J.

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a 32-kg child decides to make a raft out of empty 1.0-l water bottles and duct tape. neglecting the mass of the duct tape and plastic in the bottles, what minimum number of water bottles will the child need to be able to stay dry on the raft?

Answers

Ignoring the mass of duct tape and plastic in the bottles, a child will need at least 4 water bottles to stay dry on the raft. The child will need at least four water bottles to stay dry on the raft.

The buoyancy force exerted by the water on the raft must be greater than or equal to the weight of the child to keep the child afloat and dry on the raft. The buoyancy force is given by Archimedes' principle, which states that it is equal to the weight of the water displaced by the raft.

The volume of each 1.0 L water bottle is 0.001 m^3. The density of water is approximately 1000 kg/m^3. Therefore, each water bottle has a buoyant force of:

Buoyant force = Volume of water displaced x Density of water x Acceleration due to gravity

Buoyant force = 0.001 m^3 x 1000 kg/m^3 x 9.81 m/s^2

Buoyant force = 9.81 N

To find the minimum number of water bottles needed to keep the child afloat, we need to divide the weight of the child by the buoyant force of one water bottle:

Minimum number of water bottles = Weight of child / Buoyant force per bottle

Minimum number of water bottles = 32 kg / 9.81 N

Minimum number of water bottles = 3.26 (rounded up to 4)

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similarities and differences between the last time the globe warmed and the climate changes occurring today.

Answers

The similarity between the last time the globe warmed and the climate change occurring today is that both are caused by the emission of greenhouse gases into the atmosphere.

Greenhouse gases trap heat from the sun in the atmosphere, causing the earth's temperature to increase. The difference between the two is that the current warming is happening much faster than the last time the globe warmed. This is largely due to the amount of greenhouse gases that have been released into the atmosphere since the industrial revolution. In addition, the current warming is affecting the global climate in more extreme ways than the last time the globe warmed, with more frequent and intense storms, droughts, and heatwaves.

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Compare the direction that a transverse wave travels with the direction that matter in the wave vibrates

Answers

In a transverse wave, matter vibrates in a direction that is parallel to the wave motion, whereas the direction of energy transfer is perpendicular to the wave's direction of motion.

How can the direction that a transverse wave moves be compared to the direction that the wave's constituent matter vibrates?

A transverse wave transfers energy in a direction that is perpendicular to the way that the wave's constituent matter vibrates. For instance, when a rope is shaken back and forth to produce a wave, the energy moves perpendicular to the rope's motion from one end to the other.

In contrast, the path of energy transfer in a longitudinal wave is parallel to the direction in which the wave's constituent matter vibrates. For instance, as sound waves pass through air, the molecules in the air oscillate back and forth parallel to the wave's motion.

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