PHYSICS HIGH SCHOOL

A ball is thrown straight up. At the top of its path its acceleration isa. 0 m/s2.
b. about 5 m/s2.
c. about 10 m/s2.
d. about 20 m/s2. E. about 50 m/s2.

Answers

Answer 1
Answer:

We have that From the Question a ball is thrown straight up. At the top of its path its acceleration is

0 m/s2.

Option A

From the question we are told  

A ball is thrown straight up. At the top of its path its acceleration is

a. 0 m/s2.

b. about 5 m/s2.

c. about 10 m/s2.

d. about 20 m/s2.

E. about 50 m/s2.

Generally

For a Ball thrown straight up at the top of its path where The gravitational force equals the force of the thrown,the Point where the ball is at equilibrium  the Velocity of the ball is zero

Therefore

From the Question

A ball is thrown straight up. At the top of its path its acceleration is

a. 0 m/s2.

Option A

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Answer 2
Answer: C. Acceleration is the rate of change of velocity. So at the top of the path, while the velocity is zero, the CONSTANT GRAVITATIONAL ACCELERATION is about 10 m/s^2 (9.8)

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2. The speed of truck is 39 m/s. How long does it take for the truck to travel 9,000 m?

Answers

Answer:

\boxed {\tt 230.769231 \ seconds}

Explanation:

Time can be found by dividing the distance by the speed.

t=(d)/(s)

The distance is 9,000 meters and the speed is 39 meters per second.

d= 9,000 \ s\ns=39 \ m/s

Substitute the values into the formula.

t=(9,000 \ m)/(39 \ m/s)

Divide. Note that the meters, or "m" will cancel out.

t=(9,000)/(39 \ s)

t=230.769231 \ s

It takes 230.769231 seconds for the truck to travel 9,000 meters at 39 meters per second.

What is velocity of a particle?

Answers

Velocity of a particle is its speed and the direction in which it is moving.

It can also be described as the instantaneous rate of change of the particle's
distance traveled, and the direction in which the distance is changing.
velocity is generally defined as the distance travelled by a particle in a particular time interval ...........its formula is given as
v=d/t
where v is velocity
         d is distance travelled and
         t is time interval.....
    its units are - kmph , m/s read as kilometers per second and meters per second

How is wave velocity calculated?

Answers

Velocity of a wave (v) = frequency (f) × wavelength (λ)As mentioned above, the velocity of a wave is related with its frequency and wavelength by the following equation. In order to find the velocity of sound using this equation, we need to know both the frequency and the wavelength of sound.

In which of these cases do we have enough information to say that the atom is electrically neutral? A. The atom has 4 neutrons and 4 protons.
B. The atom has 7 protons and 7 electrons.
C. The atom has 19 electrons and 19 neutrons.
 D. The atom has 15 neutrons and 15 electrons.

Answers

So we want to know when do we have enough information about the atom that we can say that it is electrically neutral. So the information we need to know is the number of protons, whic are positively charged particles and the number of electrons which are negatively charged particles. Number of protons has to be equal to number of electrons for the atom to have neutral charge. Neutrons are electrically neutral so their number doesn't change the charge of the atom. So the correct answer is B.
b. 7 protons and 7 electrons, just took the test

A spherical raindrop 2.7 mm in diameter falls through a vertical distance of 3950 m. take the cross-sectional area of a raindrop = πr2, drag coefficient = 0.45, density of water to be 1000 kg/m3, and density of air to be 1.2 kg/m3. (a) calculate the speed a spherical raindrop would achieve falling from 3950 m in the absence of air drag.

Answers

Final answer:

The speed a spherical raindrop would achieve falling from 3950 m in the absence of air drag is calculated by firstly finding the time it takes for the raindrop to fall this distance using equations of motion, and then using this time in the equation for final velocity. The calculated speed is approximately 2785.30 m/s.

Explanation:

To calculate the speed a spherical raindrop would achieve falling from 3950 m in the absence of air drag, we must recall the equations of motion. The relevant equation here is Final velocity (v) = Initial velocity (u) + Acceleration (gravity, g) * time (t). However, since initial velocity (u) is 0 (when the drop starts falling, it's stationary), the equation simplifies to Final velocity (v) = g * t.

In free fall, a body accelerates under gravity (approximated as 9.81 m/s^2). In terms of time, difficulties arise because we don't know exactly when the raindrop will hit the ground. We can, however, calculate the time it would take for the raindrop to fall 3950 m by rearranging the equation distance (s) = ut + 0.5 * g * t^2 to solve for time. Removing (u), for the reasons explained earlier, we have the equation s = 0.5 * g * t^2. Solving this for time gives t = sqrt(s / (0.5 * g)). Substituting the given fall distance for s we get t = sqrt(3950 / (0.5 * 9.81)) or approximately 284.10 seconds.

Finally, we use this calculated time in our simplified velocity equation which gives v = g * t or 9.81 * 284.10, which equals approximately 2785.30 m/s.

Learn more about Physics of Free Fall here:

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Potential energy is the energy an object has because of itsA. density.
B. size.
C. location.
D. speed.
E. temperature.

Answers

The property that distinguishes the potential energy from kinetic energy are the shape and position of the object, letter C. Potential energy is directly proportional with mass times gravity times the height of the object at rest. On the other hand, kinetic energy is directly proportional with half of the square of the velocity times the mass of the object in motion.
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