What is the role of the midbrain, and which part of the midbrain is important for arousing the forebrain?

Answer: Option (a) is the correct answer.

Explanation:

When we perform in a laboratory then it is necessary to follow the instructions  of the teacher and safety measures thoroughly so that any accident will not lead to any type of serious injury.

But if sometimes the teacher in not around you while performing the experiment then the basic safety measure to be followed is to wear gloves, goggles, and protective clothing.

Therefore, we can conclude that the most important safety rule to remember during lab activities is wear gloves, goggles, and protective clothing.

B

Let me know if I'm correct

I'm pretty sure it's B

p=m•v=3•15=45 kg•m/s

The two types of wave interference are constructive and destructive.

These both describe what happens when waves combine

Constructive interference is when 2 waves combine to form a wave with a larger amplitude, but this is only if both waves are both positive or both negative.

Destructive interference is when the two waves are opposite, one is negative, one is positive. They subtract forming the combined wave that has a lower amplitude.

I hope that helps u out!! :)

The gravitational force between two objects depends on both their masses and the distance between them. It is possible for the gravitational force between two like masses to be less than that between unequal masses if the like masses are farther apart.

The question asks whether it's possible for the gravitational force between two 50-kg objects to be less than the gravitational force between a 50 kg object and a 5 kg object. The answer to this depends on the distance between the objects, because the gravitational force is directly proportional to the mass of the objects and inversely proportional to the square of the distance between them, according to Newton's Law of Universal Gravitation. So, if the distance between the two 50-kg objects is significantly larger than between the 50 kg and 5 kg objects, then the gravitational force between the 50-kg pair could indeed be less.

Newton's law of Universal Gravitation equation is:

F = G * (m1 * m2) / r²

Where F is the force of gravity, G is the gravitational constant, m1 and m2 are the masses of the two objects, and r is the distance between the centers of the two masses.

Therefore, if the two 50-kg objects are far apart, the r value in the equation will be large, reducing the value of F, the gravitational force. Meanwhile, if the 50 kg and 5 kg objects are very close, the r value will be smaller, and the force F could be larger despite the smaller mass of one of the objects.

Dan's velocity is calculated by dividing his total displacement of 15 km west by the total time of 45 minutes, which is equivalent to 0.75 hours, hence his velocity is 20 km/h west.

The student asks about Dan's velocity after biking 10 km west and then another 5 km west in a total time of 45 minutes. To find the average velocity, we need to calculate the total displacement over the total time. Since Dan's travel direction is consistent (west), the total displacement is simply the sum of the two distances. So, his displacement is 10 km + 5 km = 15 km west. To get the velocity, we divide the displacement by the time in hours. First, we convert 45 minutes into hours by dividing by 60, which gives us 0.75 hours. Hence, Dan's velocity is 15 km / 0.75 h = 20 km/h west.

The K.E. of car will be "784000 J".

Given values are:

Mass,

Velocity,

→ The Kinetic energy will be:

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

By putting the values, we get

= [tex]\frac{1}{2}\times 2000\times (28)^2[/tex]

= [tex]\frac{1}{2}\times 2000\times 784[/tex]

= [tex]2000\times 392[/tex]

= [tex]784000 \ J[/tex]

Thus the above answer is correct.

Learn more:

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The car's kinetic energy is calculated using the formula KE = (1/2)mv², yielding a result of 784,000 joules (J), with a mass of 2,000 kg and velocity of 28 m/s.

To calculate the kinetic energy of a car, we can use the formula for kinetic energy (KE), which is KE = (1/2)mv², where m is mass and v is velocity. In this case, the mass (m) is 2,000 kg and the velocity (v) is 28 meters per second.

Now, let's plug in the values:

KE = (1/2) × 2000 kg × (28 m/s)²
KE = (1/2) × 2000 kg × 784 m²/s²
KE = 1000 kg × 784 m²/s²
KE = 784,000 kg·m²/s² = 784,000 J

Therefore, the car's kinetic energy is 784,000 joules (J).

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== The volume of water in the tank is (1.5 m²) x (7 m) = 10.5 m³ .

== The density of water is 1000 kg / m³ .

== The mass of water in the tank is (10.5 m³) x (1000 kg/m³) = 10,500 kg.

== The force of gravity is (mass?) x (gravity)

force = (10,500 kg) x (9.8 m/s²)

force =  102,900 Newtons

Answer: 102,900 N

I remember this question from one of my, test. Really hope this helps..

ideal gas equation ...pv=nrT ... n=2 ... r is gas constant T=10^4x1/8.3

Answer:

The kinetic energy is 16 Joules.

Explanation:

Use the formula for the kinetic energy:

[tex]E_k=\frac{1}{2}mv^2 = \frac{1}{2}2.0kg\cdot 4.0^2 \frac{m^2}{s^2}=16J[/tex]

The work done on the brick during its fall is exactly the work that was done on it to lift it up to the height of 10m in the first place, AND it's the gravitational potential energy it has while it's up there.

Gravitational Potential Energy = (mass) x (gravity) x (height)

GPE of the brick = (1 kg) x (9.8 m/s²) x (10 m)

GPE = (1 x 9.8 x 10) (kg-m² /s²)

GPE = 98 Joules

From the time it drops off the 10m shelf until it hits the ground, 98 Joules of work is done on it.

What does the work ?  Where does that energy come from ?

GRAVITY does the work on the brick !

Work can be defined as the transformation of energy released during the movement of an object when an external force is applied to the object.  

The work done by the brick is 98 Joules.

Given that the mass m of the brick is 1 kg and it dropped from a height h of 10 m. In this case, gravitational acceleration will be 9.8 m/s. Now to calculate the work done by the brick, we apply the work-energy theorem.  

The work-energy theorem states that the work done by all the forces on the object is equivalent to the total change in the kinetic energy during the movement.

Work done by the brick = Work done by gravity + Work done by air resistance

Apply that the air resistance is negligible then,

Work done by the brick = Work done by the gravity

Work Done = [tex]mgh[/tex]

Work = [tex]1\times 9.8\times 10[/tex]

Work = [tex]98 \;\rm J[/tex].

Hence we can conclude that the work done by the brick during the movement is 98 Joules.

To know more about the work, follow the link given below.

https://brainly.com/question/4095205.

Awnser: Work

Explanation:  

work is the act of using force

F=m•a=1000•3=3000 N=3kN

The force of impact during the collision of a stunt car with a tree, given a mass of 1000 kg and an acceleration of 3 m/s^2, is 3000 Newtons (N), calculated using Newton's second law of motion.

To find the force of impact of the collision on a stunt car that crashes into a tree, we can use Newton's second law of motion, which states that the force acting on an object equals its mass times its acceleration (F = ma). In this case, the mass (m) of the car is given as 1000 kg, and the acceleration (a) during the collision is mistakenly referred to as '3 m', which seems like a typo for '3 m/s2'. Assuming the acceleration is indeed 3 m/s2, the calculation would be:

F = 1000 kg × 3 m/s2 = 3000 N.

Hence, the force of impact during the collision would be 3000 Newtons (N). This calculation essentially applies Newton's second law to determine the net force acting on the car due to its acceleration towards the obstacle (in this case, a tree), providing a fundamental understanding of the dynamics involved in car crashes.

After reading through all of the above, I don't find a question that needs to be answered.  

But I just want to say:

Yep.  Uh huh.  Fer sher.  You are true.  Words of higher veracity are unlikely to be found. Every word of that scenario and its description is accurate, and cannot be debated or disputed in any wise.  

What's more, I agree, and I thank you for the points.

A scientist wants to publish a report on a general feeding habits of a moose in Canada. He should observe as many moose as he can in as many locations as possible.

In science, observation is vital. Scientists gather and record data through observation, which allows them to create and subsequently test ideas and hypotheses. Scientists can observe in many different ways, including using their own senses or instruments like telescopes, thermometers, satellites, or stethoscopes.

These instruments enable more accurate and precise observations. Tools can also be used to collect data about subjects we can't directly experience, like deep space.

To  publish a report on a general feeding habits of a moose in Canada, the scientist  should observe as many moose as he can in as many locations as possible.

Learn more about observation here:

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Answer:

It is the SI unit of force.

Explanation:

The rate of change of momentum in the body is directly proportional to the force applied on the body. It is the second law of motion.

The mathematical form of Newton's second law is

F = m x a

where, m is the mass and a be the acceleration.

If a body of mass 1 kilogram having an acceleration of 1 m/s^2, it means the force applied on the body is 1 newton.

Answer:

Answer:

oxbow lake  

Mark as brainliest, please!?

Explanation:

I mean i guess its the metric system?

The metric system (International System of Units, SI) is the standard of measurement used by most countries and the scientific community because it simplifies calculations, ensures accurate data comparison, and supports global collaboration in science.

The standard of measurement most countries and the scientific community use is the metric system, also known as the International System of Units (SI system). Unlike the United States, which uses the Imperial system, the metric system is universally accepted in scientific reports and research due to its simplicity and global standardization. This system is especially crucial in sciences, as it provides a 'standard language of measurement' that ensures scientists worldwide are on the same page when it comes to analyzing data and conducting experiments.

In contexts ranging from gas pumps to scientific labs, standardized measurement ensures consistency, reliability, and global understanding. Changes in the definitions of standard units of measurement reflect the dynamic nature of science and the evolving technological landscape, necessitating periodic updates to maintain accuracy and relevance in scientific discoveries.

The widespread adoption of the metric system enhances global communication in science, thus accelerating technological advancements and scientific progress. This unified approach to measurement not only facilitates international trade and commerce but also supports educational and research endeavors by providing a consistent framework for learning and discovery.

Generally the metal of container is made up of such material that it will absorb heat and distribute it on the surface so that the temperature can rise and it will help to cook the food

But the handle of the container is used to hold it and we need not its temperature to be vary high so the handle must be made up of different material which will not absorb too much heat and its temperature will not rise to high value so that we can hold it easily

so here most appropriate option is given as

D) The metal in the handle can absorb more energy without changing temperature as easily as the metal in the pot.

Answer:

D) The metal in the handle can absorb more energy without changing temperature as easily as the metal in the pot.

Work done is defined as product of force and displacement of point of application of force.

So here we will have

[tex]W = F.d[/tex]

now since here after applying the force the car is not displaced from its position

So here we have

d = 0

so work done is given as

[tex]W = 900 \times 0 = 0[/tex]

so there is no work done in this case

Katlyn pours hot water into the flavored gelatin powder and stirs.

Gelatin powder is the solute. Water is the solvent.  (D)

The correct answer is D. Gelatin powder is the solute and water is the solvent in the gelatin dessert that Katlyn makes. Water is the component in the larger amount and is responsible for dissolving the gelatin powder.

When Katlyn makes a gelatin dessert, she is creating a solution by mixing two substances. In this context, the gelatin powder is the solute, which is the substance that gets dissolved, and the hot water is the solvent, which is the substance that does the dissolving. Therefore, the correct answer to the question is D. Gelatin powder is the solute. Water is the solvent.

Solvents are typically the component of a solution that is present in the larger amount and usually determines the phase (solid, liquid, or gas) of the solution. In Katlyn's case, the solvent - water - is a liquid, which then forms a gel upon cooling, as the dispersed gelatin molecules create a three-dimensional network in the cooled dessert.

Answer B) 3

Explanation:

Final answer:

A steel needle or paper clip can float on the surface of water even though steel is denser than water. This is due to surface tension, which creates an upward force that counteracts the force of gravity.

Explanation:

Although steel is denser than water, a steel needle or paper clip placed carefully lengthwise on the surface of still water can be made to float. This is possible because of a phenomenon called surface tension. Surface tension is the force that acts on the surface of a liquid and tends to minimize its area.

When a small object like a steel needle or paper clip is placed on the surface of water, the surface tension of the water molecules pulls on the object from all sides, creating an upward force that counteracts the force of gravity. As a result, the object floats on the surface of the water.

This demonstrates that density alone does not determine whether an object will float or sink. Other factors, such as surface tension, can play a significant role in determining whether an object will float or sink.

according to newton's second law , the net force on an object is the product of mass and the acceleration of the object. The formula is given as

[tex]F_{net}[/tex] = m a

where m = mass of the object  and a = acceleration of the object.

when an unbalanced force acts on an object , there is a net force acting on the object and hence the object accelerate as a result.

hence the object accelerate in the direction of net force.

Answer:

0.49

Explanation:

There are two forces acting on the block in the direction parallel to the surface of the inclined plane:

- The component of the weight of the block parallel to the incline:

[tex]mg \sin \theta[/tex]

where m = 8.0 kg is the mass of the block, g=9.8 m/s^2 and [tex]\theta=31^{\circ}[/tex] is the angle of the ramp

- The frictional force, given by:

[tex]\mu mg cos \theta[/tex]

where [tex]\mu[/tex] is the coefficient of friction.

The two forces act in opposite direction, and according to Newton's second law, their resultant is equal to the product of the mass of the block (m) and its acceleration (a):

[tex]mg sin \theta - \mu mg cos \theta = ma[/tex]

Since we knw that [tex]a=0.9 m/s^2[/tex], we can re-arrange the equation to find the coefficient of friction:

[tex]\mu = \frac{g sin \theta -a}{ g cos \theta}=\frac{(9.8 m/s^2)(sin 31^{\circ})-0.9 m/s^2}{(9.8 m/s^2)(cos 31^{\circ})}=0.49[/tex]

Answer:

When the engine is running, the alternator keeps the battery charged and electrical system going. If the electrical system performs erratically battery will discharge.

Answer:

4441 J

Explanation:

The amount of energy needed to change the ethyl alcohol from liquid to gas state is given by

[tex]Q=m \lambda_v[/tex]

where

m = 5.20 g is the mass of the alcohol

[tex]\lambda_v = 854 J/g[/tex] is the latent heat of vaporization of the substance

Substituting the numbers into the formula, we find:

[tex]Q=(5.20 g)(854 J/g)=4,441 J[/tex]

Answer:

4441

Explanation: