Non skull bones of the axial skeleton

The spring needs to be stretched further in order to provide the additional upward force needed for acceleration, hence c) L > 1m.

What is elevator acceleration?

If the elevator is stationary or travelling at a constant speed, N = mg.

If the elevator has an upward acceleration, N = mg + ma.

If the elevator has a downward acceleration, N = mg - ma.

Your perceived weight is equal to the normal force.

As a result of the fact that in this instance both the individual and the elevator are initially travelling up at a constant speed before slowing down to rest on a higher floor. The elevator accelerates in a downward direction.

The spring needs to be stretched further in order to provide the additional upward force needed for acceleration, hence L > 1m.

To learn more Spring, here

https://brainly.com/question/14670501

#SPJ4

Answer:

Explanation:

D. a wave passes into a new medium and travels through that medium.

Transmission refers to the process of a wave traveling through a new medium, such as when light passes through a pane of glass or sound travels through air.

The acceleration is expressed as the product of the change in time and the change in velocity, and it is 2.3 m/s. 34.78 seconds pass before the wheels lift off the ground.

Speed is the rate at which an object travels along a path over time, whereas velocity is the speed and direction of an item's motion.

Taking the first interval, we find

a = Δvx/Δt

a = 23m/s/10m/s

a = 2.3m/s

By dividing the acceleration in m/s2 by the value of g, or the acceleration of gravity (9.81 m/s2), we may determine the jet's acceleration in g's.

ag = a/g

2.3/9,8

ag = 0.33g

When the jet reaches its takeoff velocity, which is 80 m/s, the wheels come off the ground.

The jet's velocity is zero at time t=0 s. Since we are aware that the acceleration is constant (a=2.3 m/s2), we can use the equation to determine the time t at which the jet achieves a velocity of vf=80 m/s.

vf = vi + at

Re-arranging and substituting numbers, we find

t = vf/a

t = 80/2.3

t = 34.78s

To know more about velocity visit:-

https://brainly.com/question/11252536

#SPJ4

Answer:

This a practical that you have to do. Not to us.

Explanation:

EXPERIMEXPERIMENT: SIMPLE MACHINES When we think of a machine, car engines, cranes, lifts, power drills, and vacuum cleaners usually come to mind. These devices are complex machines. Simple machines are the wedge, inclined plane, screw (an inclined plane wrapped on an axle), pulley, and lever. The jack used to lift a car is an example of a simple machine; it is simply a lever. In this investigation you will use a lever as a simple machine, and calculate its mechanical advantage and efficiency. Here are your goals for this lesson: Make quantitative observations and measurements with precision Analyze, evaluate and predict patterns from data Communicate findings These supplies are needed: meter stick string weights Play Mute Remaining TimeÂ-1:08 Picture-in-Picture Follow these directions and complete the activities. 1. Suspend the meter stick by a string from its center. 2. Notice carefully where it balances. It probably will not balance exactly at 50 cm. All distances must be measured to this point (called the fulcrum). 3. Hang a 200 g mass on one side and a 50 g mass on the other and adjust the distances from the fulcrum until the meter stick balances.(Be sure to account for the mass of the hanger from which you are suspending the masses. This can either be part of the total mass or, alternatively, if you are using something like coffee cups to hold the masses, their masses need to be matched perfectly before starting the experiment. You can do this by first checking to see how close they com

The given statement about “When infrared radiation is absorbed by a greenhouse gas molecule the infrared radiation can never leave Earth atmosphere” is false, because the circulating infrared radiation in the atmosphere will eventually escape into space.

Greenhouse gases are needed in order to maintain a temperature on our planet that is suitable for the continuation of life. Without the natural greenhouse effect, the heat that the Earth radiates into space would simply escape outwards from the surface of the planet, and the average temperature of the planet would be somewhere about -20 degrees Celsius.

Because it emits energy into space as infrared radiation, which is invisible to the human eye, the Earth does not get hotter and hotter as it receives energy from the sun. The Earth must emit an amount of infrared radiation that is equal to the amount of energy that is absorbed from sunlight in order for there to be an energy balance. The temperature of the Earth affects how much infrared radiation energy it emits.

To learn more about infrared radiation, click here:

https://brainly.com/question/20779091

#SPJ4

The work WAB in electron volts done by the electric force on a proton that moves from point A to point B can be calculated using the equation W = qE, where q is the charge of the proton and E is the electric field at point B.

Similarly, the work WAC, WAD, and WAE can be calculated using the same equation, substituting in the electric field at points C, D, and E respectively.

Assuming the proton starts and stops at rest, the answers in eV will be equal to the product of the proton's charge and the electric field at the respective points.

Learn more about electron volts:

https://brainly.com/question/16096069

#SPJ4

The amount of energy lost is equal to 2880 joules if a current of 2A flows through a wire with a resistance of 4 for 3 minutes.

Given according to the question-

Current passing through the wire (I) = 2A

Resistance of the wire (R) = 4Ω

Time for which the current passed in the wire (t) = 3mins = 3 x 60

sec= 180sec. {converting minutes into seconds}

To be calculated

Energy loss (E)

According to Formulae

The electric energy that an electric current delivers is a function of both its strength and the amount of time it flows, and is thus a function of voltage, current and time.

[tex]E = Pt = VIt[/tex]

In order to create variants, this equation and Ohm's law can be used together.

[tex]E = VIt = I^{2} Rt[/tex]

E =  I²Rt

E = 2² × 4 × 180

E = 2880J

To know more about Energy Loss

https://brainly.com/question/5144470

#SPJ1

The speed at which the ball left the quaterback’s hand was 23.76 m/s.

When a particle is hurled obliquely near the surface of the earth, it travels along a curved path while accelerating continuously in the direction of the planet's centre.

Such a particle's motion is known as projectile motion, and its route is referred to as a projectile.

The range of the pass is = 63 yards = 63 × 0.9144 meter = 57.6072 meter

Angle of projection = 45 °

Acceleration due to gravity =  9.8 m/s²

Hence, the initial speed is =  √{(9.8 ×  57.6072)/sin(2×45°)} m/s

= 23.76 m/s

Learn more about projectile motion here:

https://brainly.com/question/29545516

#SPJ1

angular velocity after 12.0 s = 4.50 rad/s - (0.822 rad/s^2 * 12.0s)

angular velocity after 12.0 s = 2.052 rad/s

What is angular velocity?

Angular velocity is a measure of the angular displacement over time of a rotating object. It is expressed as the rate of change of angular displacement with respect to time, and is usually expressed in radians per second or revolutions per minute. Angular velocity is considered to be a vector quantity, meaning it has magnitude and direction. It is also a measure of the speed at which an object is rotating. When an object is rotating in a circular motion, its angular velocity is the same as its tangential velocity. Angular velocity can also be used to calculate the linear velocity of an object, by multiplying its angular velocity by the radius of its circular path.

Therefore, angular velocity after 12.0 s = 2.052 rad/s

To learn more about angular velocity

Here: https://brainly.com/question/20432894

#SPJ1

Answer: -5.36

Explanation:

ik this can help you now but i was doing this problem and figured id leave this here lolz

Depending on the type of material used, the length, and other factors, the conductor provides some ohmic resistance to the flow of electrons.

Because electrons in a conducting wire reject one another, a conducting wire provides resistance to the flow of electrons. The electrolyte resistance, the current collector resistance, the active mass, and the transition resistance between the current collector and active mass are added to create the ohmic resistance, or RB.

Theoretically, in accordance with Ohm's rule, the voltage at the ohmic resistance instantly follows the battery current. A substance or material that permits the flow of electricity is known as an electrical conductor. Electrical charge carriers, often electrons or ions, flow freely in a conductor.

Learn more about conductor Visit: brainly.com/question/15208203

#SPJ4

Contingent upon the sort of material utilized, the length, and different variables, the guide gives ohmic protection from the progression of electrons.

Since electrons in a directing wire reject each other, a leading wire gives protection from the progression of electrons. The electrolyte obstruction, the ongoing authority opposition, the dynamic mass, and the progress obstruction between the ongoing gatherer and dynamic mass are added to make the ohmic obstruction or RB.

Hypothetically, as per Ohm's standard, the voltage at the ohmic obstruction in a split second follows the battery current. A substance or material that allows the progression of power is known as an electrical transmitter. Electrical charge transporters, frequently electrons or particles, stream uninhibitedly in a transmitter.

To learn more about conductor Visit:

brainly.com/question/15208203

#SPJ4

[tex]{ \qquad\qquad\huge\underline{{\sf Answer}}} [/tex]

Inverse proportionality means that the two terms should be proportional to inverse of each other ~

That is :

[tex]\qquad \sf  \dashrightarrow \: y \propto \dfrac{1}{x} [/tex]

And according to given options, only option 1 shows inverse proportionality. where y is inversely proportional to x and m is proportionality constant.

[tex]\qquad \sf  \dashrightarrow \: y = \dfrac{m}{x} [/tex]

Electric field lines always begin at positive charges (or at infinity) and end at negative charges (or at infinity). One could also say that the lines we use to represent an electric field indicate the direction in which a positive test charge would initially move when released from rest.

The field lines show us the motion of a positive test charge on one of those field lines. As a result, the field lines point in the direction of negative charges and away from positive charges. Instead, we may state that what we need is information about the movement of negative test charges from the field lines. Then the arrows would turn around, and someone would innocently inquire about the exact opposite.

Learn more about electric field here: https://brainly.com/question/14372859

#SPJ4

An example of a sustainable management practice for natural resources is the adoption of conservation techniques and sustainable land-use practices, such as agroforestry.

Agroforestry refers to land-use systems and technologies in which woody perennials are intentionally used on the same land-management units as agricultural crops and/or animals in some form of spatial arrangement or temporal sequence.

Other practices include conservation agriculture, and ecologically based pest management, water harvesting and recharge, renewable energy production, reducing waste through recycling and composting, and engaging in sustainable forestry practices.

Find out more on agroforestry here: https://brainly.com/question/13414574

#SPJ1

Basic function of a wave is given as, [tex]y(x,t)=Asin(kx\pm wt \pm $\Phi$)[/tex]. Where

"A" is amplitude, "k" is the wave number, "w" is angular frequency, and "Ф" is the phase angle.

Based off the given wave function, [tex]y(x,t)=5sin(60t - x)[/tex], we can say that the phase angle is 0° and the wave number is 1 m.

The correct option is E. The magnitude and direction of the force on this third charge [tex]2kq^2/d[/tex]; the positive x-direction.

An electric area (now and again E-discipline) is the bodily field that surrounds electrically charged particles and exerts force on all other charged debris in the subject, either attracting or repelling them. It also refers to the physical discipline for a system of charged debris. electric powered fields originate from electric expenses and time-varying electric powered currents. electric powered fields and magnetic fields are both manifestations of the electromagnetic discipline, one of the four fundamental interactions (also called forces) of nature.

Electric fields are critical in lots of regions of physics and are exploited in electrical technology. In atomic physics and chemistry, for instance, the electric field is the attractive pressure protecting the atomic nucleus and electrons together in atoms. it is also the pressure accountable for chemical bonding among atoms that bring about molecules. the electrical discipline is defined as a vector area that friends to each factor in space the electrostatic (Coulomb) force in keeping with unit of fee exerted on a tiny tremendous check rate at relaxation at that factor.

To learn more about Electric fields visit here:

brainly.com/question/15800304

#SPJ4

Complete Question:

For the following question, consider the electric field and forces produced by a pair of charged particles held at fixed positions on the x-axis at x= +d and x=−d.

The charge at +d is positive q and the one at −d is negative q. A third negative charge of −q is placed at the origin. What is the magnitude and direction of the force on this third charge?

A). [tex]2kq^2/d^2[/tex]; the negative direction

B).[tex]2kq^2/d[/tex]; the positive x-direction

C). [tex]2kq^2/d[/tex]; the negative direction

D). [tex]2kq/d^2[/tex]; the positive x-direction

E).[tex]2kq^2/d[/tex]; the positive x-direction

F). [tex]2kq/d^2[/tex]; the negative x-direction

The amount of heat needed is 2812.5 Joules.

To find the amount of heat needed to increase the temperature of 5.0 moles of an ideal monatomic gas by 23K when the pressure or volume is held constant, you can use the formula Q = nCΔT, where Q is the amount of heat, n is the number of moles, C is the heat capacity of the gas, and ΔT is the change in temperature.

In this case, n = 5.0 moles, C = 24.5 (the heat capacity of an ideal monatomic gas at constant pressure), and ΔT = 23K. Therefore, the amount of heat needed is Q = 5.0 * 24.5 * 23 = 2812.5 Joules.

Learn more about the temperature:

https://brainly.com/question/25677592

#SPJ4

When ball A passes ball B, A's position and acceleration are the same as those of B.

Describe acceleration.

The rate at which velocity changes is called acceleration. Acceleration typically indicates a change in speed, but not necessarily. An item that follows a circular course while maintaining a constant speed is still moving forward because the direction of its motion is shifting.

The motion of an item is related to the forces operating on it by Newton's equations of motion. According to the first law, until a force acts on an item, it will not alter its motion. According to the second law, an object's force is determined by multiplying its mass by its acceleration. The third rule states that when two things come into contact, they exert forces on one another of equal magnitude and opposite direction.

To learn more about acceleration use link below:

https://brainly.com/question/30499732

#SPJ4

The bulk modulus of the iron block is given 9 × 10¹⁰ N/m². The volume change is 0.20 %. Then the pressure required for the compression is 1.8 × 10⁸ N/m².

Bulk modulus of an object is the measure of its resistance to compression. It is the ratio of infinitesimal increase in pressure to the decrease in volume.

B = ΔP/ΔV/V

  =  ΔPV/ΔV.

Given B  = 9 × 10¹⁰ N/m²

ΔV/V = 0.20/100 = 0.002

then ΔP = B ΔV/V

ΔP = 9 × 10¹⁰ N/m² × 0.002  = 1.8 × 10⁸ N/m²

Atmospheric pressure = 1 × 10⁵ N/m²

then ΔP/Patm = 1.8 × 10⁸ N/m²/1 × 10⁵ N/m² = 1800

Find more on bulk modulus:

https://brainly.com/question/15178872

#SPJ1

First off, no known chemical, physical, or environmental approach can change the half-life of a radioactive species so option c. is the correct choice.

Additionally, since radioactivity is a nuclear phenomenon and oxidation is a chemical process, the half-life is unaffected by changes in oxidation.

Additionally, we are performing a chemical reaction by converting it to UF6.

Because U-235 has a shorter half-life than U-238 (700 million), UF6 includes a little amount of it (4.7 billion).

Only altering the state of the electrons around the nucleus can change the half-life of radioactive decay. We can alter a radioactive isotope's half-life by only altering the atoms that are bound to it in its immediate surroundings.

Want to know more about radioactive species visit the link which is given below;

https://brainly.com/question/4957516

#SPJ4

The direction of the tangential velocity at the instant the mass is at position is diagram A.

Tangential velocity is the velocity of an object along a circle or curved path, at any given point. It is the component of the velocity that is perpendicular to the radius of the circle, and it is perpendicular to the radial velocity, which is the component of velocity that points towards or away from the center of the circle.

The tangential velocity determines the speed of an object as it moves along the circular path.

Find out more on tangential velocity here: https://brainly.com/question/19660334

#SPJ1

Freezing keeps food safe by slowing the movement of molecules, causing microbes to enter a dormant stage. Freezing preserves food for extended periods because it prevents the growth of microorganisms that cause both food spoilage and foodborne illness.

What is freezing food?

To know more about the freezing food, click the link given below:

https://brainly.com/question/9634850

#SPJ1

To calculate T(Su 90), we use the fact that T is linear, meaning it respects and final answer is T(_9v) = -9*(-1,3) = (-45, 27).

A scalar is a single quantity that has magnitude but no direction. It is typically represented by a real number and is used to measure the magnitude of a physical or mathematical quantity. Examples of scalars include speed, temperature, mass, energy, and volume. Scalars are contrasted with vectors, which have both magnitude and direction.

T(Su) = (25, 5)

T(_9v) = (-45, 27)

T(Su 90) = (-225, -45) with explanation:

To calculate T(Su), we use the fact that T is linear, meaning it respects the distributive, associative, and scalar multiplication properties. Therefore, we can break down the expression into its constituent parts, T(S*u), which can be written as: T(S) * T(u).

Since S is a scalar (90) and u is a vector (5,2), we can calculate T(S) as 90*T(u) and T(u) as (2,1). Therefore, T(S*u) = 90*(2,1) = (180, 90).

To calculate T(_9v), we use the same principle and break down the expression into its constituent parts, T(_9)*T(v). Since _9 is a scalar and v is a vector (1,3), we can calculate T(_9) as -9*T(v) and T(v) as (-1,3). Therefore, T(_9v) = -9*(-1,3) = (-45, 27).

Finally, to calculate T(Su 90), we use the fact that T is linear, meaning it respects.

To learn more about scalar visit

brainly.com/question/356987

#SPJ4

Answer:The answer is "when it is in the air" because when objects are positioned higher off the ground they have more gravitational potential energy.

Explanation:

The length of the incline is 65 meter.

Acceleration is rate of change of velocity with time. Due to having both direction and magnitude, it is a vector quantity. Si unit of acceleration is meter/second² (m/s²).

Initial speed is = 2 m/s

Final speed is = 15 m/s

Acceleration  of the skier is = gsin10° = 9.8 × sin10° m/s² = 1.7 m/s

Let the  length of the incline is l

Hence,

15² = 2² + 2×1.7×s

s = 65

Hence, the length of the incline is 65 meter.

Learn more about acceleration here:

brainly.com/question/12550364

#SPJ1

[tex]1.602 x 10^-17[/tex] is the work must we do on an electron to move it from point A, , to point B, that is at a potential of -50V, along the semicircular path.

In order to move the electron from point A to point B, we need to do work on it to overcome the electric potential difference between the two points. Since the two points have potentials of +50V and -50V respectively, the total potential difference is 100V.

Since the electric field is conservative, the work done by it depends only on the potential difference between points A and B and not on the path taken. The potential difference between points A and B is given by:

ΔV = V_B - V_A = -50 V - (+50 V) = -100 V

To move an electron from point A to point B, we need to do work on it equal to the change in its potential energy. The potential energy of an electron in an electric field is given by:

U = qΔV

where q is the charge of the electron, and ΔV is the potential difference.

The charge of an electron is:

q = -1.6 x [tex]10^{-19 }[/tex]C

Substituting the values, we get:

U = (-1.6 x [tex]10^{-19 }[/tex] C) x (-100 V)

U = 1.6 x [tex]10^{-19 }[/tex]

Therefore, we need to do work on the electron equal to 1.6 x 10^-17 J to move it from point A to point B along the given semicircular path.

To learn more about electrons visit:

brainly.com/question/860094

#SPJ4

The total rotational kinetic energy of the system can be found by evaluating the above expression using the given values of m, r, and ω [tex]KE = 1/2 * (m1 * r1^2 + m2 * r2^2 + m3 * r3^2) * (2.00 rad/s)^2[/tex]

The total rotational kinetic energy of a system can be found by evaluating the expression 1/2 Iω^2, where I is the moment of inertia of the system and ω is its angular velocity. In this case, the moment of inertia of the system can be found by adding the moments of inertia of each particle and the connecting rods.

Since the rods have negligible mass, their moment of inertia is also negligible and can be ignored. The moment of inertia of each particle is given by the formula:

I = mr^2

where m is the mass of the particle and r is its distance from the axis of rotation.

Assuming the particles have masses m1, m2, and m3 and distances from the axis of rotation r1, r2, and r3, respectively, the total moment of inertia is:

[tex]I = m1 * r1^2 + m2 * r2^2 + m3 * r3^2[/tex]

Substituting the given values, we find:

I = (m1 * r1^2 + m2 * r2^2 + m3 * r3^2)

Finally, substituting the moment of inertia and angular velocity into the expression for rotational kinetic energy, we find:

KE = 1/2 * I * ω^2

[tex]KE = 1/2 * (m1 * r1^2 + m2 * r2^2 + m3 * r3^2) * (2.00 rad/s)^2[/tex]

So, the total rotational kinetic energy of the system can be found by evaluating the above expression using the given values of m, r, and ω.

Learn more about kinetic energy here

https://brainly.com/question/26472013

#SPJ4

The book will be traveling at a speed of 15 m/s just before it hits the ground 12 m below you. Due to gravity, the speed of the book will increase as it falls and reach its maximum velocity of around 24.5 m/s just before it reaches the ground.

The book will be traveling at a speed of 15 m/s just before it hits the ground 12 m below you. Due to gravity, the speed of the book will increase as it falls and reach its maximum velocity of around 24.5 m/s just before it reaches the ground.

As the book falls, gravity will accelerate it toward the ground. The acceleration due to gravity, denoted as g, is a constant value of 9.8 m/s2. This means the book's velocity will increase by 9.8 m/s every second. Therefore, the book will reach its maximum velocity of 24.5 m/s after 2.5 seconds. After this point, the velocity will remain constant until it reaches the ground.

Learn more about speed :

https://brainly.com/question/13943409

#SPJ4

The pressure of the gas in a container with a volume of 1.54 L is initially evacuated. Then it is filled with 0.221 g of N2 is 1619Pa.

A gas with a small density and at a sufficiently high temperature so that the interaction between its particles can be neglected can be considered an ideal gas. In this case, the pressure, volume, and temperature of the gas are related as follows:

PV=mMRT, where m is the mass of the gas and M is the molar mass of the gas. The pressure of the gas can be found using the ideal gas law:p =mRT/MV.

The temperature of the gas can be found from the RMS speed of the molecules of nitrogen, which is given by: vrms=√3RT/M. Solving for the temperature, we obtain: T= Mv² / 3 R. And pressure is P= mv² /3V. So P=[ 0.221×(184)²]/ 3×1.54 = 1619 Pa.

For further learning about the pressure of gas in a container, refer to the link:

https://brainly.com/question/15265703

#SPJ4