A ball is thrown with an initial speed of 10. Meters per second. At what angle above the horizontal should the ball be thrown to reach the greatest height?

Answer:

The 3rd graph

Explanation:

A free body diagram is a diagram which shows all the forces acting on an object.

The problem asks us to find the free body diagram of block A, so we must find all the forces acting on block A.

We have 3 forces acting on block A in total:

- The force of gravity (its weight), which pushes the block downward (in the diagram, it is the force represented with [tex]F_{gA}[/tex]

- The tension in the rope 1, which pulls block A upwards: this force is represented with [tex]F_{T1}[/tex]

- The tension in the rope 2, due to the weight of block 2, which pulls block A downwards: this force is represented with [tex]F_{T2}[/tex]

Based on the direction of these 3 forces, the correct diagram is the 3rd one.

Answer:

t he third graph

Explanation:

Electromagnetic waves are the waves which can also travel through the vacuum. Example of electromagnetic waves are - Radio waves , micro waves, Infrared waves, Light (visible portion of electromagnetic spectrum), Ultraviolet rays, Xrays and gamma rays.

Hence A that is light waves is the correct option.  

The answer is A! I hope this helps!

Given that:

kinetic energy of an object (K.E) = ?

mass of the object (m) = 30 Kg ,

velocity of object (v) = 20 m/s,

We know that,

Kinetic energy is a form of energy, that an object as by reason of its motion.

mathematically,

      The kinetic energy of the object (K.E) = 1/2 . (m. v²)

                                                                         = 1/2.(30 × 20²)

                                                                         = 6000 Joules

                                                                K.E = 6000 J or 6 KJ

The kinetic energy of the object is 6000 Joules

Units ;    N.m = J  (energy measured in Joules)

           KN.m = KJ

Answer:

Kinetic energy of the given object is 6000 J or 6 KJ.

Explanation:

We are given:

mass of the object = 30 kg; and

velocity with which the object moves = 20 m/s.

We know the formula of the kinetic energy:

Kinetic energy = 1/2 × mv[tex]^2[/tex]

Substituting the given values in the above formula to get:

Kinetic energy of object = 1/2 × 30 × 20[tex]^2[/tex] = 6000 J or 6 KJ

By changes of state if you mean like liquid to gas, solid to liquid etc then the the changes of state would be:

vaporization (Liquid to gas

condensation (gas to liquid)

Sublimation(solid to gas)

Deposition (gas to solid)

Melting (solid to liquid)

Freezing ( liquid to solid)

Answer:

False

Explanation:

It is false that you will stop learning new tasks and skills once you are hired for your first job. Even if you have been able to obtain a job, this does not mean you can stop learning. It is likely that your job will present new challenges, and you need to be prepared for these. Moreover, you might also change jobs in the future, and knowing how to perform a wide variety of skills would most likely help you in your future.

Note that

[tex]W = Fd \cos \theta[/tex]

Thus, here,

W = (2000 N)(30 m)(cos 15) = 57955.54958  J

Here, we only have 2 significant figures. Hence, in 2 significant figures,

[tex]W = 5.8*10^4 \; J[/tex].

Answer:

5.8 × 10^4 J

Explanation:

Answer:

Its state is in uniformly accelerated motion

Explanation:

When an object is acted upon the force of gravity only, we said that the object is in free fall.

According to Newton's second law of motion:

[tex]F=ma[/tex]

where F is the net force on an object, m is its mass, a its acceleration, when the net force on an object (F) is non-zero, than the object accelerates (because a is non-zero), so the object is in accelerated motion.

In case of free fall, the rate of acceleration of the object is equal to [tex]g=9.8 m/s^2[/tex], the acceleration due to gravity, and it is constant. So, the object is moving by uniformly accelerated motion.

B) The forces pointing in and down are balanced 

300n on the top and 300n on the bottom results in it being balanced

In the given diagram, the forces pointing up and down are balanced since they are equal in magnitudes and will cancel each other in magnitude.

Force acting on an object is able to deform it or to change its state of motion or rest. Force is a vector quantity and is characterised by its magnitude and direction.

When two same or different forces are acting in the same direction on an object, the resultant force will be the sum of magnitude of the two forces. If two forces are acting in the opposite directions, they will cancel each other in magnitudes.

In the given diagram, the force acting up and down are equal thus, they will cancel each other and is said to be balanced. The net force to the right direction is 200 N since 200 from 400 N is cancelled by the force with 200 N leftwards. Hence, option b is correct.

To find more on force, refer here:

https://brainly.com/question/26115859

#SPJ5

The Answer would be C because it is a process called synchronous rotation. which means that one side of the moon is always facing us. or (tidal locking)

Answer:

C. The moon is tidally locked with the Earth.

Explanation:

22.94 seconds, or in estimation it is 23 seconds.

7,800/340, is how you find that out and so it would take

22.94117647058824 seconds

Answer: liquid A flows slower i got it right on the exam

Explanation:

Answer:

OXYGEN

Explanation:

from odyssey

energy. It will not disrupt the picture developing process by overexposing too much light on the film.

The answer is B (energy). I have had this question before and B is correct.

For any wave,  Wavelength = (speed) / (frequency).

So the Slinky Wavelength = (6.6 m/s) / (3 / sec)

Wavelength = 2.2 meters .

It takes the compression in the wave 2.2 seconds to travel the length of the classroom.

Answer:

17.4 N

Explanation:

According to Newton's second law, the net force acting on the box along the ramp is equal to the product of mass and acceleration:

[tex]F_{net}=ma[/tex]

If we want to move the box at constant velocity, this means acceleration equal to zero: a = 0, so the previous equation becomes:

[tex]F_{net}=0[/tex] (1)

Let's now understand what are the forces exerted on the box along the surface of the ramp:

- The pull (the applied force), let's call it F, which pulls up along the ramp. However, this pull is applied at an angle of 40 degrees, so the actual pull along the ramp will be [tex]F cos 40^{\circ}[/tex]

- The component of the weight parallel to the surface of the ramp, equal to

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

where (mg) = 49 N is the weight of the box and [tex]\theta=10^{\circ}[/tex] is the angle of the ramp. This force pulls down along the ramp, so we put a negative sign in front of it.

- The frictional force, equals to

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

where [tex]\mu=0.1[/tex] is the coefficient of friction. This force pulls down along the ramp (in the opposite direction of the motion), so we put a negative sign as well

Therefore, the equation for the net force (1) becomes:

[tex]F cos 40^{\circ}-mg sin \theta -\mu mg cos \theta =0[/tex]

from which we can find the value of F:

[tex]F=\frac{mg sin \theta + \mu mg cos \theta}{cos 40^{\circ}}=\frac{(49 N)(sin 10^{\circ})+(0.1)(49 N)(cos 10^{\circ})}{cos 40^{\circ}}=17.4 N[/tex]

Skate park, definitely.

Hope this helped!

its the skate park>....

Answer:

Multiply the air pressure by the area of the tabletop.

Explanation:

The relationship between pressure, force and area is given by:

[tex]p=\frac{F}{A}[/tex]

where in this case, p is the air pressure, F is the force exerted and A the area of the tabletop. By re-arranging the equation, we can solve for F, the force exerted:

[tex]p=\frac{F}{A}\\p\cdot A=\frac{F}{A}\cdot A\\pA=F[/tex]

So, the correct answer is:

The force exerted on the tabletop can be found by multiplying the air pressure by the area of the tabletop.

pH measures the acidity or alkalinity of a substance, with 7 being neutral.

The term pH is a measure of how acidic or alkaline (basic) a substance is. The pH scale is logarithmic and ranges from 0 to 14, where 7 is considered neutral. A pH below 7 indicates acidity, while a pH above 7 indicates alkalinity. The acceptable level of pH varies depending on the substance and the biological system. For example, in humans, the normal range of blood pH is between 7.35 and 7.45, which is slightly alkaline. Conditions such as acidosis and alkalosis occur when the blood pH falls too low or rises too high, respectively.

Maintaining a consistent pH is crucial in living organisms to ensure optimal conditions for chemical reactions. Even small fluctuations in pH levels can affect protein structure and function, which is critical for life processes. Outside of biological systems, pH levels are also significant in environmental contexts, such as the impact of Acid Rain on the pH of natural waters, which is important for the survival of aquatic life.

Acceleration = (change in speed) / (time for the change)

Change in speed = (speed at the end) - (speed at the beginning).

Change in speed = (10 m/s) - (zero) = 10 m/s

Time for the change = 3 sec

Acceleration = (10 m/s) / (3 sec)

Acceleration = (3 and 1/3) m/s²  or 3.333 m/s²

To calculate the acceleration, use the change in velocity divided by the time. For an object going from rest to 10 m/s in 3 seconds, the acceleration is 3.33 m/s².

The question addresses the calculation of acceleration of an object in motion. To find the acceleration, we can use the formula:

Acceleration (a) = Change in velocity (omenclature) / Time (t)

In this scenario, the object goes from rest (initial velocity, u = 0 m/s) to a final velocity (v) of 10 m/s in a time (t) of 3 seconds.

Thus, acceleration (a) is calculated as:

a = (v - u) / t

a = (10 m/s - 0 m/s) / 3 s

a = 10 m/s / 3 s

a = 3.33 m/s²

The acceleration of the object is therefore 3.33 m/s².

Correct answer: Warm air from the south rises.

The only correct statement on that list is choice-C:  If a positively charged rod is brought close to a positively charged object, the two objects will repel.

Answer:

C. If a positively charged rod is brought close to a positively charged object, the two objects will repel.

Explanation:

According to coulomb's law, the magnitude of the electric force between two point charges at rest is directly proportional to the product of the magnitude of both charges and inversely proportional to the square of the distance that separates them. This force is repulsive for like charges and attractive for opposite charges.

and bandwagon is another technique

Assuming (for the least amount of time) that it is 60mph all the way through. Divide the two numbers

1500/60 = 25

B. 25 hours is your answer

~

25 hours.

All you have to do to find out is divide 60 into 1500 and you will get B:25 hours

Answer:  

Potential energy , because it is defined as the energy held by object because of its position relative to other objects.. It is based on its distance from ground

Given data

    mass (m) = 67 kg ,

   height (h) = 230 m ,

      Potential energy (P.E.) = m. g. h

                                            = 67 × 9.81 × 230

                                            = 151172.1 J

                                  P.E.   = 151.18 KJ

Answer:

59.2 N

Explanation:

According to Newton's second law, the resultant of the forces acting on the box must be equal to the product between the box's mass and its acceleration:

[tex]F_{net}=ma[/tex]

However, the box is moving at constant velocity, so its acceleration is zero:

a = 0

Therefore, the net force along the direction of motion (parallel to the surface) must be zero.

We have two forces acting along the direction parallel to the ground:

- The applied force, F

- The frictional force, [tex]\mu mg[/tex], in the opposite direction, with [tex]\mu = 0.3021[/tex] being the coefficient of friction, m = 20 kg the mass of the box and g = 9.8 m/s^2

Therefore, the equation of motion becomes:

[tex]F-\mu mg=0[/tex]

And solving for F, we find:

[tex]F=\mu mg=(0.3021)(20 kg)(9.8 m/s^2)=59.2 N[/tex]