HELP ASAP! A certain wave has a frequency of 200 Hz and a wavelength of 2 meters. Calculate the wave speed. SHOW WORK! Question 13 options:

Answer:

A. Food Aversion

It's right on ED2020, good luck!! Stay healthy and safe!!

Final answer:

Chris is experiencing food aversion, which is an associative learning process where one learns to avoid certain tastes associated with past sickness.

Explanation:

Chris is most likely experiencing a food aversion. This type of conditioning occurs when an individual associates the taste of a certain food or drink with a negative experience, such as illness, and then avoids it in the future. The event where Chris felt sick after playing hard in heat post-drinking chocolate milk exemplifies how a single adverse incident can lead to a long-lasting aversion. This aversion is a learned response when the conditioned stimulus (in Chris's case, chocolate milk) is paired with an unconditioned stimulus (feeling sick) resulting in a conditioned aversion to the food or drink.

Similar to Chris's experience with chocolate milk, taste aversion conditioning can happen when flavors associated with stomach pain or illness become avoided and disliked, an evolutionary mechanism important for animals and humans to avoid potential toxins. An example is how cancer patients may develop aversions to certain foods right before chemotherapy since the treatment often leads to nausea or sickness, strengthening the association between the flavor and the negative reaction.

Answer:

70 kg

Explanation:

On earth, g = 9.8 m/s².

W = mg

700 N = m (9.8 m/s²)

m ≈ 71 kg

Rounded to 1 significant figure, the astronaut's mass is 70 kg.

Answer:

(B) True

The answer is true.

Answer:

The recoil velocity of the projectile is 0.0025m/s

Explanation:

Given:

Mass of the projectile =0.005kg

Mass of the launcher = 1500kg

Velocity =  750 m/s.

To Find:

The recoil velocity of the projectile = ?

Solution:

The recoil velocity is the obtained by dividing the "recoil momentum"  by the "mass of the recoil body".  The recoil momentum is equal to the momentum of the other body. The momentum of the other body is equal to it mass times its velocity.

Lets find the recoil momentum,

Recoil momentum = mass of the projectile X velocity

Recoil momentum =[tex]0.005 \times 750[/tex]

Recoil momentum = 3.75

Now Recoil Velocity,

Recoil Velocity = [tex]\frac{\text { Recoil Momentum}}{\text {Mass of the launcher}}[/tex]

Recoil Velocity = [tex]\frac{ 3.75}{1500}[/tex]

Recoil Velocity = 0.0025m/s

Answer: -36.4

Explanation:

It says that the initial speed is 7 and the time is 3. acceleration is -9.8 ( its always 9.8 but since its going downward its negative)

The equation you want to use is Vf = Vo + AT.

When you plug in the answers it is

0 = 7 + -9.8(3)

-9.8(3) = -29.4

Then add 7

and you get -36.4

The ball's velocity after 3 seconds is 24.4 m/s.

The ball is thrown downward with an initial speed of 7 m/s. The acceleration due to gravity is 9.8 m/s². So, the ball's velocity is increasing at a rate of 9.8 m/s^2.

After 3 seconds, the ball's velocity is 7 m/s + 3 * 9.8 m/s²

= 24.4 m/s.

Therefore, the ball's velocity after 3 seconds is 24.4 m/s.

First, we find the acceleration of the ball by multiplying the acceleration due to gravity by the time it has been falling.

Next, we add the initial velocity of the ball to the acceleration we just found to find the final velocity of the ball.

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Answer:

The answer is dis identification.

Explanation:

Answer:

D

Explanation:

D.

Disidentification

Answer:

true

Explanation:

if you purchase something online, it often times gets damaged or mixed up with a different product.

Answer:

False

Explanation:

You can purchase online without seeing or trying the goods you want.

If you trust in the store in which you are purchasing (because it has a good online reputation or it was recommended by a friend), an online bought is a good option, it is faster, it is done without leaving your home and many times it is even cheaper than bought in person.

Answer:

t = 0.13 [s]

Explanation:

We know that the speed of light is equal to c = 3 * 10^8m/ s, equivalent to 300000000 [m / s] and the radius of the Earth equal to 6400 [km] or 6400000 [m].

The speed definition is given as:

[tex]c = \frac{x}{t} \\where:\\c = velocity or speed light [m/s]\\t = time [s]\\x = distance [m][/tex]

But we need to know the value of x.

We know that the Earth's equator resembles a circumference, and we need to know the length of the circumference that will be the value of x.

[tex]x =2*\pi *r\\where:\\r = Earth radius [m]\\replacing:\\x = 2*\pi *6400000 = 40212385.97[m][/tex]

Then we can find the time.

[tex]t=\frac{40212385.97}{300000000} \\t=0.13[s][/tex]

Answer:

(a) Power= 207.97 kW

(b) Range= 5768.6 meter

Explanation:

Given,

Mass of bullet, [tex]m=0.02 kg[/tex]

Kinetic energy imparted, [tex]K=1200 J[/tex]

Length of rifle barrel, [tex]d=1 m[/tex]

(a)

Let the speed of bullet when it leaves the barrel is [tex]v[/tex].

Kinetic energy, [tex]K=\frac{1}{2} mv^{2}[/tex]

[tex]v=\sqrt{\frac{2K}{m} }[/tex]

[tex]=\sqrt{\frac{2\times1200}{0.02} }[/tex]

[tex]=346.4m/s[/tex]

Initial speed of bullet, [tex]u=0[/tex]

The average speed in the barrel, [tex]v_a_v_g=\frac{u+v}{2}[/tex]

[tex]=\frac{0+346.4}{2} \\=173.2 m/s[/tex]

Time taken by bullet to cross the barrel, [tex]t=\frac{d}{v} [/tex]

[tex]=\frac{1}{173.2}\\ =0.00577 second[/tex]

Power, [tex]P_a_v_g=\frac{W}{t}[/tex]

[tex]=\frac{1200}{0.00577} \\=207.97kW[/tex]

(b)

In projectile motion,

Maximum height, [tex]H_m=\frac{v^2\sin^2\theta}{2g} \\[/tex]

Range, [tex]R=\frac{v^2\sin2\theta}{g}[/tex]

given that, [tex]H_m=R[/tex]

then, [tex]\frac{v^2\sin^2\theta}{2g}=\frac{v^2\sin2\theta}{g}\\\sin^2\theta=2\sin\theta\cos\theta\\\\\tan\theta=4\\\theta=\tan^-^14\\\theta=75.96^0\\R=\frac{v^2\sin2\theta}{g}\\=\frac{346.4^2\times\sin(2\times75.96)}{9.8}\\5768.6 meter[/tex]

Answer:

The apparent weight is less than that of the real weight because of buoyancy.

Explanation:

Buoyancy is the upward thrust that is experienced by the object that is either fully or partially immersed in the object. The weight of the immersed object will be equal to the mass of the liquid that is displaced by the object. Buoyancy can be calculate based on Archimedes's Principle.  Buoyancy also acts in the air, the normal force is reduced than the force of gravity. Buoyancy is the ability to float in liquid as well as in air. This floating happens when various forces acts on the opposite direction. The direction of the force will always remain upwards.

Answer:

False, When an object rolls over a surface, the kind of friction that occurs is called ROLLING FRICTION

Explanation:

The correct term for the kind of friction that occurs when an object rolls over a surface is rolling friction, not round friction, making the statement False. Rolling friction, which is different from sliding friction, is weaker and allows a rolling object to travel farther.

The kind of friction that occurs when an object rolls over a surface is not called round friction, making the statement False. When an object rolls over a surface, the friction is correctly called rolling friction. Rolling friction is a force that resists the motion of an object rolling on a surface. It happens due to deformations at the contact area between the rolling object and the surface. Unlike sliding friction, which occurs when there is relative motion between two surfaces in contact without rolling, rolling friction generally requires less force to overcome due to the reduced contact area and the nature of the motion.

During rolling motion, especially without slipping, a kinetic friction force can also arise if there is relative motion between the surfaces. However, rolling friction is primarily responsible for slowing down a rolling object over time, even in the absence of air resistance. It is significantly weaker than sliding friction, allowing a rolling object to travel much farther than it could slide on the same surface. The force of rolling friction is necessary for rolling motion, as it provides the torque needed to change the object’s angular momentum.

Answer:

Power = Force x Velocity

Explanation:

Mathematically, it is computed using the following equation. The standard metric unit of power is the Watt. As is implied by the equation for power, a unit of power is equivalent to a unit of work divided by a unit of time. Thus, a Watt is equivalent to a Joule/second.

The equation used to calculate Power is Force multiplied velocity.

This is defined as the amount of energy conversion which takes place per unit time and the unit is Watts.

Power = Force × Velocity

We cab however calculate Power by multiplying the applied force with the velocity of the object in order to arrive as the answer.

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Answer:

The wavelength of the infrared wave is 0.0001 m.

Explanation:

Given:

Frequency of an infrared wave is, [tex]f=3.0\times 10^{12}\ Hz[/tex]

We know that, infrared waves are electromagnetic waves. All electromagnetic waves travel with the same speed and their magnitude is equal to the speed of light in air.

So, speed of infrared waves coming from the Sun travels with the speed of light and thus its magnitude is given as:

[tex]v=c=3.0\times 10^8\ m/s[/tex]

Where, 'v' is the speed of infrared waves and 'c' is the speed of light.

Now, we have a formula for the speed of any wave and is given as:

[tex]v=f\lambda[/tex]

Where, [tex]\lambda \to \textrm{Wavelength of infrared wave}[/tex]

Now, rewriting the above formula in terms of wavelength, [tex]\lambda[/tex], we get:

[tex]\lambda=\dfrac{v}{f}[/tex]

Now, plug in [tex]3.0\times 10^8[/tex] for 'v', [tex]3.0\times 10^{12}[/tex] for 'f' and solve for  [tex]\lambda[/tex]. This gives,

[tex]\lambda=\frac{3.0\times 10^8}{3.0\times 10^{12}}\\\\\lambda=0.0001\ m[/tex]

Therefore, the wavelength of the infrared wave is 0.0001 m.

To find the wavelength of an infrared wave with a frequency of 3.0 x 10¹² Hz, use the formula λ = c / f. Substituting the speed of light and the given frequency, we get a wavelength of 1.0 x 10⁻⁴ meters.

Infrared waves are part of the electromagnetic spectrum and have longer wavelengths than visible light. To find the wavelength of an infrared wave given its frequency, we use the formula:

λ = c / f

where:

Given the frequency f = 3.0 x 10¹² Hz, we can substitute the values into the equation:

λ = 3.00 x 10⁸ m/s / 3.0 x 10¹² Hz

λ = 1.0 x 10⁻⁴ meters

Thus, the wavelength of the infrared wave is 1.0 x 10⁻⁴ meters.

Answer:

16 Newtons

Explanation:

We will use the equation F=ma

First, find the acceleration using the givens.

a=∆v/∆t

a=15-3/3

a=12/3

a=4 m/s^2

Next, plug the acceleration and mass into the equation.

F=ma

F=4kg(4m/s^2)

F=16 Newtons

Answer:

The free body diagram is attached.

Explanation:

A force of 31[N] to the east, the second force goes to the south and it is equal to 28[N], the third force goes to the west and it is equal to 39 [N].

We can consider the crate as a particle. And all the forces are acting over the particle.

Answer:

8.0 m/s

Explanation:

KE = ½ mv²

96 J = ½ (3.0 kg) v²

v = 8.0 m/s

The kinetic energy of the object is the energy conserved due to the motion of the object.

A cart of 3 kg mass has the kinetic energy of 96 joules hence the speed of the cart is 8 m/s.

Given that cart has a kinetic energy of 96 Joules and the mass of the cart is 3 kg.

The formula for kinetic energy is given below.

[tex]KE = \dfrac {1}{2} mv^2[/tex]

Where KE is the kinetic energy of the cart, m is the mass of the cart and v is the speed of the cart.

Substituting the given values in the above formula to calculate the speed of the cart.

[tex]96 = \dfrac {1}{2} \times 3\times v^2[/tex]

[tex]v^2 = 64[/tex]

[tex]v = 8 \;\rm m/s[/tex]

Hence we can conclude that the speed of the cart is 8 m/s.

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Answer:

1291.08 N

Explanation:

acceleration=change in speed per unit time

[tex]a=\frac {v-u}{t}[/tex] where v and u are final and initial velocities respectively.

u is zero and v=160 km/h converted to m/s becomes[tex]160\times \frac {1000m}{3600s}\approx 44.44 m/s[/tex]

acceleration=[tex]\frac {44.44-0}{8}\approx 5.56 m/s^{2}[/tex]

Apparent weight, [tex]F_N=m(g+a)[/tex]

Taking g as 9.81 and m as 84 Kg then

[tex]F_N=84(9.81+5.56)\approx 1291.08 N[/tex]

The astronaut's apparent weight just after launch is about 467.04 N. This is calculated using the equation F = ma, where m is the astronaut's mass and a is the shuttle's acceleration (derived from the given final velocity and time).

To calculate the apparent weight of the astronaut, we need to find the acceleration of the shuttle first. We'll use the formula v = u + at, where v is the final velocity, u is the initial velocity (zero in this case as it's a vertical launch), a is the acceleration, and t is the time. We're given that v = 160 km/h which is equivalent to 44.44 meters per second (160000 m / 3600 seconds) and t = 8 seconds.

Calculating for a = (v - u) / t, we get a = 5.56 m/s². Then we calculate the apparent weight using the equation F = ma, where F is the force (apparent weight) and m is the mass. Using m = 84 kg and a = 5.56 m/s², we find that F (the apparent weight) = 467.04 N (rounded to the nearest hundredths place).

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Explanation:

Elastic energy stored in a spring is:

EE = ½ kx²

EE = ½ (115 N/m) (0.15 m)²

EE = 1.3 J

Answer: The energy stored in the spring is 1.33 J

Explanation:

To calculate the energy stored in the spring, we use the equation:

[tex]E=\frac{1}{2}kx^2[/tex]

where,

E = energy stored in the spring

k = spring constant = 115 N/m

x = compression of the spring = 0.15 m

Putting values in above equation, we get:

[tex]E=\frac{1}{2}\times 115\times (0.15)^2\\\\E=1.33J[/tex]

Hence, the energy stored in the spring is 1.33 J

Answer:

Explanation:

The unit for moment is N/m(newton per meter).

The formula for moment of force(also known as torque) is:

T= r.F sinθ

To make force as a subject,

T = r.F sinθ

T/r = F sinθ

F = T / r sinθ

Answer

Explanation:

Establish a Fire Prevention Plan – A fire prevention plan provides facilities with documentation outlining the employees responsible for identifying combustible materials, fire hazards and heat-producing equipment. It also outlines the procedures necessary to prevent potential emergencies.

A fire prevention plan benefits the workplace by enhancing safety, reducing the risk of fires, and minimizing potential losses.

A workplace can benefit greatly from a well-executed fire protection plan. It primarily reduces the likelihood of fires, which can result in casualties, property damage, and business interruptions. Businesses may dramatically lower the risk of fires by recognizing potential fire dangers, developing safety procedures, and making sure that firefighting equipment is available and maintained.

A plan for fire prevention also improves workplace security in general. It increases staff members' knowledge of the dangers of fire and instructs them on how to safely exit the building in case of an emergency. In addition to saving lives, this fosters a feeling of security and well-being among the staff, raising morale and productivity. It may also result in lower insurance prices.

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Answer: p= m/v so 90kg/.075m^3 = 1,200

2a. .35 m 1.1 m and .015 m

2b. 35 cm x 110 cm x 1.5 cm = 5,775 cm^3 = 57.75 m^3

mass= pv

2700•57.75= 155,925 kg

mass= 155,925 kg

volume= 57.75 m^3

Explanation: physics

As water moves down through the ground, the force that is acting against it is gravity, which is in option c, as gravity pulls the water down through the soil and towards the water table or the nearest body of water.

Gravity is a force that pulls objects towards each other, and it is what causes water to move downward through soil and rock. When it rains or when water is added to the soil, the force of gravity causes the water to percolate or move down through the soil and towards the water table or the nearest body of water. Capillary action refers to the ability of water to move upward through small spaces or pores, such as in soil or rock. It is caused by the surface tension of water and the adhesion of water molecules to surfaces.

Hence, as water moves down through the ground, the force that is acting against it is gravity, which is option c.

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The force acting against water as it moves down through the ground is Gravity(C). It pulls the water downwards, and this motion is resisted by the earth's material, which is referred to as permeability.

As water moves down through the ground, the force that is acting against it is Gravity(C). Gravity is the force of attraction that pulls two masses towards each other, in this case, the mass of the earth and the mass of water. This downward pull of water is resisted by the earth's material leading to the permeability of soil and rocks, that is the ability for water to flow through them. However, the answer to your actual question is Gravity as it’s the primary force pulling the water downwards.

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Answer:B

Explanation:

Calculate speed using equation:V=S/t

S=980 km ------------   distance Boston-Detroit

t=2h ---------------------   time

v=?

------------------------

V=S/t

V=980km/2h

V=490km/h

Final answer:

The average speed of the airplane for the trip from Boston to Detroit, covering a distance of 980 km in two hours, is 490 km/h. The direction of flight is westward.

Explanation:

The subject of this question is Physics, and it would typically be encountered by students at the High School level. The question involves calculating the average speed and direction of an airplane's flight from Boston to Detroit, which is a 980 km trip that the airplane completes in two hours. To find the average speed, we divide the total distance traveled by the total time of the trip.

The calculation would be Average speed = Total distance / Total time = 980 km / 2 hours = 490 km/h. Since the plane is flying from Boston to Detroit, the general direction is westward. Therefore, the best description of the airplane's average speed and direction is 490 km/h West.

Answer:

The magnitude of the resultant acceleration is 2.2 [tex]m/s^2[/tex]

Explanation:

Mass (m) of the sailboat =  2000 kg

Force acting on the sailboat due to ocean  tide is [tex]F_1[/tex] = 3000N

Eastwards means takes place along the positive x direction

Then[tex]F_{1x}[/tex] = 3000N and [tex]F_{1y}[/tex]= 0

Wind Force acting on the Sailboat is[tex]F_2[/tex]  = 6000N directed towards the northwest that means at an angle  45 degree above the negative x axis

Then  

[tex]F_{2x}[/tex] = -(6000N) cos 45 degree = -4242.6 N

[tex]F_{2y}[/tex]  = (6000N) cos 45 degree = 4242.6 N

Hence  , the net force acting on the sailboat in x direction is  

[tex]F_x = F_{1x}+ F_{2x}[/tex]

=  - 3000 N + 4242.6 N

=  - 3000 N +4242.6 N

= 1242.6N

Net Force acting on the sailboat in y direction is  

[tex]F_y = F_{1y}+ F_{2y}[/tex]

= 0+ 4242.6N

= 4242.6N

The magnitude of the resultant force =

Using pythagorean theorm of 1243 N and 4243 N

[tex]\sqrt{(1242.6)^2 + (4242.6)^2[/tex]

[tex]\sqrt{(1544054.76) + (17999654.8)}[/tex]

[tex]\sqrt{(19543709.5)^2}[/tex]

4420.8 N

F = ma

[tex]a = \frac{F}{m}[/tex]

[tex]a =\frac{4420.8}{ 2000}[/tex]

=2.2 [tex]m/s^2[/tex]

Final answer:

To convert 4.8 g/cm³ to kg/m³, multiply by the conversion factors (0.001 kg/g) and (1,000,000 cm³/m³) to obtain 4800 kg/m³.

Explanation:

To convert the density from grams per cubic centimeter (g/cm³) to kilograms per cubic meter (kg/m³), we use the conversion factors: 1 g = 0.001 kg and 1 cm³ = 0.000001 m³. Therefore, to convert 4.8 g/cm³ to kg/m³, multiply by the conversion factors:

4.8 g/cm³ × (0.001 kg/g) × (1,000,000 cm³/m³) = 4.8 × 1000 kg/m³ = 4800 kg/m³.

Thus, the density is 4800 kg/m³ when converted from 4.8 g/cm³.

Answer:

1. distance and period of time.

Explanation:

The speed is calculated using the formula [tex]k = \frac{d}{t}[/tex]

"k" is the speed, "d" is the distance and "t" is the time.

You need distance and time to calculate the speed.

Speed is how fast an object is going. The direction is irrelevant to speed, not to be confused with velocity, which is speed in a given direction.

Answer: 1. distance and period of time.

Explanation:

Answer:

43m/s^2

It's derived from the equation F=ma.

Assuming that the force is in SI units which is Newtons, the answer is as such. The working is attached

btw,next time put all the units down when asking

Applying Newton's second law of motion, the relation between force and mass is given as F = m * a. The acceleration of a 0.50-kilogram ball hit with a force of 21.5 newtons is 43.0 m/s².

To calculate the acceleration of a 0.50-kilogram ball that is hit with a force of 21.5 newtons, we use Newton's second law of motion, which states that the force applied to an object equals mass times acceleration (F = ma). To find the acceleration (a), rearranging this equation the acceleration (a) would be:

a = F / m

a = 21.5 N / 0.50 kg

a = 43.0 m/s²

Therefore, the acceleration of the ball would be 43.0 meters per second squared (m/s²).

Answer:

The refracted light wave is bent at an angle while the reflected light wave is bounced back either at 90° or at angle less than 180°.

The refracted light wave changes its speed when it moves from one medium to another based on the density of the medium.

The reflected light does not change its speed once it contacts another medium. It just bounces back with the same speed.

Explanation:

Answer:

0.003333 s to 0.000125s or from 3.33ms to 0.125ms wher m is for milli

1.1m to 0.04125 m

Explanation:

T= 1/f=

if f= 300Hz then T = 1/300 =0.003333 s

if f= 8000 then T= 1/8000 = 0.000125s

now v=f×wave length

or wavelength = speed/ frequency

when f = 300 Hz

wavelength = 330/300=1.1 m

wavelength = 330/8000 = 0.04125m

note : i have taken speed of sound as 330 m/s you can take any value given in between 330m/s to 340m/s