PHYSICS HIGH SCHOOL

Select all the factors listed that influence the density of ocean water.a. tides
b. salinity
c. fecundity
d. temperature E. wave height F. current speed

Answers

Answer 1
Answer:

Answer: b and d

Explanation:

I don’t really have an explanation I just took the test and this was the answer good luck

Related Questions

A 20 kg box moving at an initial speed of 10 m/s slides 25 m to the right on a horizontal floor before it comes to a complete stop. What is the coefficient of friction between the box and the floor?
Three friends tie three ropes in a knot and pull on the ropes in different directions. Adrienne (rope 1) exerts a 20-N force in the positive x-direction, and Jim (rope 2) exerts a 40-N force at an angle 53∘ above the negative x-axis. Luis (rope 3) exerts a force that balances the first two so that the knot does not move.a. Use equilibrium conditions to find F LonKx and F LonKy. b. Use equilibrium conditions to determine the magnitude of F⃗ LonK. c. Use equilibrium conditions to determine the angle θ that describes the direction of F⃗ LonK. Use positive values if the force is directed above the positive x-axis and negative values if it is directed below the positive x-axis.d. Construct a force diagram for the knot.
Calculate the force between a 0.006 C charge and a 0.001 C charge 4 meters apart.
Which of the following lists the stars in order from least density to greatest density?A. white dwarf, neutron star, main sequence star, giantB. giant, main sequence star, white dwarf, neutron starC. white dwarf, neutron star, giant, main sequence starD. neutron star, white dwarf, main sequence star, giant
3. An astronaut lands on an alien planet. He places a pendulum (L = 0.200 m) on the surface and sets it in simple harmonic motion, as shown in this graph.Answer the following questions:a. What is the period and frequency of the pendulum’s motion?b. How many seconds out of phase with the displacements shown would graphs of the velocity and acceleration be?c. What is the acceleration due to gravity on the surface of the planet in m/s2? Determine the number of g-forces. Show any necessary calculations.Answer:

Suppose that now you want to make a scale model of the solar system using the same ball bearing to represent the sun. How far from it would you place a sphere representing the earth? (Center to center distance please.) The distance from the center of the sun to the center of the earth is 1.496×10111.496×1011 m and the radius of the sun is 6.96×1086.96×108 m.

Answers

In this exercise we have to use the knowledge in distance, in this way we will find that the proportional distance found is:

d = 0.645 m

So from the information given in the text we find that:

  • The distance from the center of the sun to the center of the earth is 1.496*10^(11) \ m
  • The radius of the sun is 6.96*10^(8)m
  • We need to assume a radius for the ball bearing, so suppose that the radius is 3 mm  

First, we need to find in what way or manner often the radius of the brightest star exist considerable respect to the range of the ball significance, that exist given apiece following equating:

(r_a)/(r_b)= \frac{6.96*10^8}{3*10{-3}} =2.32*10^(11)

Now, we can calculate the distance from the center of the sun to the center of the sphere representing the earth:  

d_(s) = (d_(e))/(r_(s)/r_(b)) = (1.496 \cdot 10^(11) m)/(2.32\cdot 10^(11)) = 0.645 m

See more about distance at brainly.com/question/989117

Answer:

d = 0.645 m(assuming a radius of the ball bearing of 3 mm)

Explanation:

The given information is:

  • The distance from the center of the sun to the center of the earth is 1.496x10¹¹m = d_(e)
  • The radius of the sun is 6.96x10⁸m = r_(s)

We need to assume a radius for the ball bearing, so suppose that the radius is 3 mm = r_(b).  

First, we need to find how many times the radius of the sun is bigger respect to the radius of the ball bearing, which is given by the following equation:

(r_(s))/(r_(b)) = (6.96\cdot 10^(8)m)/(3\cdot 10^(-3)m) = 2.32\cdot 10^(11)

Now, we can calculate the distance from the center of the sun to the center of the sphere representing the earth, d_(s):  

[tex] d_{s} = \frac{d_{e}}{r_{s}/r_{b}} = \frac{1.496 \cdot 10^{11} m}{2.32\cdot 10^{11}} = 0.645 m

I hope it helps you!

Mike has a mass of 97 kg. He jumps out of a perfectly good airplane that is 2000 m above the ground. After he falls 1000 m, when his downward speed is 68 m/s, Mike opens his parachute. The positive y-direction is downward.(a) Calculate the average magnitude of the upward force of the air resistance on Mike during his initial descent.

(b) After Mike opens his parachute, he continues to descend, eventually reaching the ground with a speed of 4.0 m/s. Calculate the average upward force during this part of Mike's descent.

(c) At the same time Mike jumps out of the airplane, his wallet (mass of 0.3 kg) falls out of his pocket. Calculate the wallet's downward speed when it reaches the ground. For this calculation, assume that air resistance is negligible.

Answers

Final answer:

The average magnitude of the upward force of air resistance on Mike during his initial descent is 0 N. The average upward force during the descent after Mike opens his parachute is 1.552 N. The downward speed of the wallet when it reaches the ground is 196.196 m/s.

Explanation:

(a) Average magnitude of the upward force of air resistance:

To find the average magnitude of the upward force of air resistance during Mike's initial descent, we need to calculate the net force acting on him. This can be done by subtracting his weight from the gravitational force:

Net force = gravitational force - weight

Gravitational force = mass * acceleration due to gravity = 97 kg * 9.8 m/s2 = 950.6 N

Weight = mass * acceleration due to gravity = 97 kg * 9.8 m/s2 = 950.6 N

Net force = 950.6 N - 950.6 N = 0 N

Since the net force is 0 N, the average magnitude of the upward force of air resistance is also 0 N.

(b) Average upward force after opening parachute:

When Mike opens his parachute, air resistance plays a significant role in slowing him down. The average upward force can be calculated using the equation:

Average upward force = mass * acceleration

Acceleration = (final speed - initial speed) / time

Time = distance / (final speed - initial speed)

Acceleration = (4.0 m/s - 68 m/s) / (1000 m / (4.0 m/s - 68 m/s)) = 0.016 m/s2

Average upward force = 97 kg * 0.016 m/s2 = 1.552 N

(c) Speed of the wallet:

Since the wallet has negligible air resistance, we can use the equation for freefall to calculate its speed:

Final speed = initial speed + acceleration * time

Acceleration = acceleration due to gravity = 9.8 m/s2

Time = sqrt(2 * height / acceleration) = sqrt(2 * 2000 m / 9.8 m/s2) = 20.02 s

Initial speed = 0 m/s

Final speed = 0 m/s + 9.8 m/s2 * 20.02 s = 196.196 m/s

Therefore, the downward speed of the wallet when it reaches the ground is 196.196 m/s.

Learn more about Calculating forces in freefall here:

brainly.com/question/31499713

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Final answer:

The force of air resistance on Mike during his initial descent and after opening his parachute is approximately 950.6 N. Ignoring air resistance, his wallet will reach the ground at approximately 198 m/s.

Explanation:

The subject of this question is Physics, and it requires understanding of forces and kinematics to apply to the real world scenario of skydiving.

Part (a)

During the initial descent, Mike doesn't have a parachute open. So, the only forces at play initially are his weight and the force of air resistance. We know that he achieves a steady speed of 68 m/s, which means the forces are balanced (net force is zero). Since weight and air resistance counterbalance each other, we calculate the weight by multiplying mass (97 kg) by acceleration due to gravity (9.8 m/s2), which yields 950.6 N. Given the forces balance, this is also the force of air resistance and the answer to part (a).

Part (b)

After the parachute opens, Mike continues to descend, eventually reaching the ground with a speed of 4.0 m/s, indicating a different balance between weight and airresistance. The weight remains the same, but the air resistance (upward force) has increased and once again equals weight since there is no acceleration. Hence, the upward force is still 950.6 N.

Part (c)

For the wallet, we're told to ignore air resistance. So, it's a free fall scenario. We can use the equation of motion v2 = u2 + 2gs to calculate the final speed. Initial speed (u) is 0, g is 9.8 m/s2 and s (displacement) is 2000 m. Substituting these values in, we calculate a final speed of approximately 198 m/s.

Learn more about forces and kinematics here:

brainly.com/question/33262109

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Air pressure in a tire is maintained because the air molecules areA. very large.
B. constantly changing shape.
C. constantly changing temperature.
D. constantly running into each other.

Answers


D. constantly running into each other.


There are five layers of the atmosphere and these are; troposphere, stratosphere, mesosphere, thermosphere and exosphere. The first layer, troposphere, is where we are able to do most of our activities. This is where we can see the formation of clouds, the production of rain, hail, snow and other weather phenomenon. Also, among the atmospheric layers, this layer is where the greatest amount of air pressure because most of the molecules of air are in this area. Like us, air has also mass and the pressure is brought down by the earth’s gravity causing an increase in weight exerted on you as you descend lower into the atmosphere. So, as you enter into the other layers of atmosphere above the troposphere, the air pressure starts to decrease. Below the atmosphere is the hydrosphere. This is where all liquid forms are located. And since the seawater has a greater mass than air, it has the greatest pressure. The answer is b.

I a liter jar contains 0.5 moles of gas at a pressure of 2 ATM what is the temperature of the gas

Answers

Answer:

The temperature of the gas is 48.75 Kelvin.

Explanation:

Using the ideal gas equation as shown

PV = nRT where;

P is the pressure of the gas in ATM

V is the volume of the gas

n is the number of moles

R is the ideal gas constant

T is the temperature in Kelvin

From the formula, T = (PV)/(nR)

Given the following parameters V = 1litre, n = 0.5moles. pressure = 2ATM

R = 0.08206 atm L/molK

On substituting to get the temperature we have:

T = (2*1)/(0.08206*0.5) \nT = (2)/(0.04103)\nT = 48.75Kelvin

An unknown fiber sample is found at a crime scene. Forensic scientists measure its index of refraction and obtain a value of 1.48. A suspect's jacket was made of Dacron polyester, his jeans were made of cotton, his shirt was made of rayon, and his tie was made of acetate. Which piece of clothing may match the fiber at the crime scene?Question 12 options:

tie

shirt

jeans

jacket

Answers

The closest refractive index to the one observed is that of rayon, about 1.51. Therefore, the fiber is likely from the suspect's shirt. 

Answer:

shirt

Explanation:

shirt

What is the approximate difference in elevation between Coolage Lake and the rectangular building in the top center portion of the map? A. 27 ft
B. 5 ft
C. 35 ft
D. 25 ft

Answers

The right answer for the question that is being asked and shown above is that:  "C. 35 ft." The approximate difference in elevation between Coolage Lake and the rectangular building in the top center portion of the map is that of C. 35 ft 
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