How do latitude and proximity to bodies of water relate to the temperature?

Answer:

7.7 N to left or -7.7 N

Explanation:

slippery floor means no frictional force

Equation for force

F = m * a , where F is force, m is mass in kg, and a is acceleration in m/s²

F = 3.5 * -2.2 m/s² = -7.7 N

Answer:

15 KJ

Explanation:

The quantity of heat (Q) required is given as:

Q = mcΔθ + mL

where m is the mass of ice, c is its specific heat capacity, L is its specific latent heat andΔθ is the change in temperature.

Given: m = 20g, temperature of ice = 0[tex]^{o} C[/tex], specific heat capacity of water = 4200 J/kg[tex]^{o} C[/tex], latent heat of fusion of ice = 3.3 x 10^(5) J/kg, temperature of water = 100[tex]^{o} C[/tex].

Q = m (cΔθ + L)

   = 0.02(4200 x (100) + 330000)

   = 0.02(420000 + 330000)

  = 0.02 (750000)

Q = 15000

Q = 15000 Joules

Q = 15KJ

The quantity of heat needed to complete the conversion is 15 KJ.

Answer:

Yes

Explanation:

This is because for the light to come on, electric current has to flow through it which is due to electron motion. As the electrons move through the light, it turns electrical energy to light energy, so the light comes on.

Answer:

a = 1.49m/s²

Explanation:

Find the diagram attached  

According to Newton's second law of motion

\sum Fx = ma

Fm - Ff = ma

Fm is the moving force

Ff is the frictional force

Fm = Wsin theta

Ff = μR = μWcos theta

Wsin theta - μWcos theta = ma

W is the weight = 50.1 * 9.8 = 490.98N

theta is the angle of inclination = 27.2°

μ is the coefficient of friction = 0.343

m is the mass = 50.1kg

a is the acceleration  

Substitute into the formula as shown;

Wsin theta - μWcos theta = ma

490.98sin27.2° - 0.343(490.98)cos 27.2° = 50.1a

224.423 - 149.78 = 50.1a

74.64 = 50.1a

a = 74.64/50.1

a = 1.49m/s²

Hence the acceleration of the block is a = 1.49m/s²

Answer:

Explanation:

The water particles just flow through each other. They cannot be destroyed nor created.

Answer:

The water cooling down is due to evaporation, the heat is simply changing the state of matter of the water. Energy is being used to change it's state. Evaporation causes the cooling down of something. Think of sweat?

Explanation:

Answer:

b) normal

Explanation:

The angle of refraction (transmission) Θt is the angle between the refracted ray and the normal N'. 2. When a light ray hits a surface normally, the angle between the incident ray and the normal is 0, so Θi = 0. Since the angle of reflection equals the angle of incidence, Θr= 0.

The angle of refraction is the angle between the refracted ray and the normal, which is option B.

When light travels from one medium to another medium with a different refractive index, it changes direction.

The angle of refraction is the angle between the refracted ray and the normal, which is an imaginary line perpendicular to the boundary between the two media at the point of incidence. The incident ray is the incoming ray of light that strikes the boundary between the two media.

The medium refers to the substance through which light is passing, and the boundary is the surface separating the two media.

However, the angle of refraction is not related to the incident ray or the boundary, but rather the norm.

Thus, the correct answer would be an option (B) normal.

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Answer:

(i) The acceleration of the object down the plane is approximately 4.9 m/s²

(ii) The time it takes for the object to reach the bottom is approximately [tex]1.\overline{428571}[/tex] seconds

(iii) The time it takes the object to come to rest is approximately 1.030636 seconds

(iv) The object has travelled past the top of the plane by time it comes to rest

Explanation:

(i) The given parameter for the objects motion are;

The angle of inclination of the plane with the horizontal, θ = 30°

The length of the plane, s = 5 m

Let "a" represent the acceleration down an inclined plane, due to the acceleration under gravity "g" we have;

a = g × sin(θ)

Where;

g = The acceleration due to gravity ≈ 9.8 m/s²

∴ a ≈ 9.8 m/s² × sin(30°) = 9.8 m/s² × 0.5 = 4.9 m/s²

The acceleration of the object down the plane, a ≈ 4.9 m/s²

(ii) The time it takes for the object to reach the bottom, can be found from the following kinematic equation of motion;

s = u·t + 1/2·a·t²

Where;

s = The length of the inclined plane = 5 m

u = The initial velocity of the object = 0 m/s

t = The time of motion of the object (Here the time to reach the bottom of the plane)

a = The acceleration of the object = 4.9 m/s²

Therefore, we have;

5 = 0 × t + 1/2 × 4.9 × t² = 2.45·t²

t² = 5/2.45 = 100/49

t = √(100/49) = 10/7 = [tex]1.\overline{428571}[/tex]

The time to reach the bottom of the plane = t = [tex]1.\overline{428571}[/tex] seconds

(iii) When the object is thrown up the plane with an initial velocity of 15 m/s, the time, "t", it takes the object to come to rest is found by the following kinematic equation of motion;

v² = u² - 2·a·s

Therefore, we have;

v² = 15² - 2 × 4.9 × 5 = 176

v = √176 = 4·√11

The velocity of the object at the top of the plane = v = 4·√11 m/s

The time it takes the object to come to rest after reaching the top of the plane = The time it takes the object (projectile) to reach maximum height

[tex]t_m = \dfrac{v_i \cdot sin(\theta _i )}{g}[/tex]

Where;

[tex]t_m[/tex] = The time it takes the object to reach maximum height

[tex]v_i[/tex] = The initial velocity of the object at the top of the inclined plane = 4·√11 m/s

[tex]\theta _i[/tex] = The initial angle of inclination of the path of the object with the horizontal = 30°

Therefore, we have;

[tex]t_m = \dfrac{4 \times \sqrt{11} \times sin(30^{\circ} )}{9.8} = \dfrac{10 \cdot \sqrt{11} }{49} \approx 0.67686[/tex]

The time it takes the object to come to rest after reaching the top of the plane = The time it takes the object to reach maximum height = [tex]t_m[/tex] ≈ 0.67686 seconds

The time it takes the object to reach the top of the plane, [tex]t_{top}[/tex], is given from the kinematic equation of motion, v = u - a·t, as follows

v = u - a·t

∴ t = (u - v)/a

[tex]t_{top}[/tex] = (15 - 4·√11)/4.9 ≈ 0.353776

The time it takes the object to reach the top of the plane = [tex]t_{top}[/tex] ≈ 0.353776 s

The total time it takes the object to come to rest, ∑t = [tex]t_m[/tex] + [tex]t_{top}[/tex]

∴ ∑t ≈ 0.67686 + 0.353776 = 1.030636

The time it takes the object to come to rest = ∑t ≈ 1.030636 seconds

(iv) The distance up the plane the object reaches, "s", is given by the following kinematic equation;

s = u·t - 1/2·a·t²

Therefore, we have;

s = 15 × 15/4.9 - 1/2 × 4.9 × (15/4.9)² ≈ 22.959 m

However, the plane is 5 meters long, therefore, the object goes further than the top of the plane.

Answer:

-1.24 m/s

Explanation:

Total momentum before collision = total momentum after collision

Total momentum before collision = (mass of full back * velocity of fullback) + (mass of lineman * velocity of line man).

Mass of full back = 112 kg, mass of line bag = 120 kg, velocity of full back  6 m/s (east), velocity of line back = -8 m/s (west). Hence:

Total momentum before collision = (112 * 6) + (120 * -8) = 672 - 960 = -288 kgm/s

The total momentum after collision = (mass of full back + mass of line back) * velocity after collision.

Let velocity after collision be v, hence:

The total momentum after collision = (112 + 120)v = 232v

Total momentum before collision = total momentum after collision

-288 = 232v

v = -288 / 232

v = -1.24 m/s

Therefore after collision, the two players would move at a velocity 1.24 m/s west (the same direction as the lineman).

same but who knows how 2021 might go

Answer:

same....

Explanation:

Wanna be friends?

Answer:

B. 2K + Br2 + 2KBr

D. C + 02 → CO2

Explanation:

In balancing a chemical reaction, the number of atoms on both sides of the expression must be the same in order to obey the law of conservation of mass.

According to the law of conservation of mass, in a chemical reaction, matter is neither created nor destroyed.

 So, let us investigate:

                                                 Number of atoms

                            Reactants                                        Products

K                                  2                                                      2

Br                                 2                                                      2

C + 0₂ → CO₂

C                                1                                                        1

O₂                              2                                                      2

We see that for both equations, the number of atoms on both sides of the expression is the same.

Answer:

Explanation:

A vote is maybe a vote

The moon's gravity, combined with the waltz of Earth and the moon around their center of mass, forces the oceans into an oval shape, with two simultaneous high tides. ... If the moon were half its mass, then the ocean tides would have been correspondingly smaller and imparted less energy to it.

Answer:

3

Explanation:

If there is 3 at the moment (atm) is the same as might be (mb) in the air.

Answer:

-scalar

Explanation:

-A scalar is any quantity that has a magnitude, but no direction

-quantities with no specified direction.

hope it helps:)

Answer: Oxygen

Explanation: Oxygen is the most common element in the human body. It makes up 65% of the body.

Explanation:

Given

acceleration (a) = 10 m/s²

mass (m) = 5 kg

Force (F) = ?

We know

F = m * a

= 5 * 10

= 50 Newton

The force is 50 N

Hope it will help :)

Answer:

[tex]\boxed {\boxed {\sf 50 \ Newtons }}[/tex]

Explanation:

Force can be found using the following formula.

[tex]F=m*a[/tex]

where F is the force, m is the mass, and a is the acceleration.

1. Define Values

We know the acceleration of the bowling ball is 10 m/s² and the mass is 5 kilograms.

[tex]a= 10 \ m/s^2 \\m= 5 \ kg[/tex]

2. Calculate Force

Substitute the values into the formula.

[tex]F= 5 \ kg * 10 \ m/s^2[/tex]

Multiply.

[tex]F= 50 \ kg*m/s^2[/tex]

[tex]F=50 \ N[/tex]

The force causing the ball to fall is 50 Newtons

Answer:

compacting

Explanation:

i don't think there is very much explanation, the snow falls and compacts the ice to become giant lol

Answer:

Tangencial.

Explanation:

El adjetivo empleado es tangencial, cuya longitud es diez caracteres. La aceleración tangencial es el componente del vector aceleración que es paralelo a la dirección del vector velocidad de un punto que se mueve sobre una circunferencia.

La aceleración tangencial tiene la función de cambiar la magnitud del vector aceleración.

s = displacement; u = initial velocity; t = time of motion

Answer:

B. Mass will not change based on location, while weight will change based on gravitational pull.

Answer:

B

Explanation:

took the test

Answer:

C. reflection

Explanation:

reflection occurs when a wave strikes an object and bounces off of it

When a wave strikes an object and bounces off, it is called reflection.

Hence, the correct option is C.

This is similar to what happens when sound waves strike a surface and bounce back, resulting in an echo.

Reflection occurs when a wave encounters a boundary or an obstacle and changes direction, returning back into the medium it came from.

The angle of incidence (the angle at which the wave strikes the surface) is equal to the angle of reflection (the angle at which the wave bounces off the surface).

Therefore, When a wave strikes an object and bounces off, it is called reflection.

Hence, the correct option is C.

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Answer:

C. 49 m/s^2

Explanation:

1 G = 9.81 m/s^2

so 5 * 9.81 = 49.05

or C. 49 m/s^2

Answer: D

Explanation:

Answer:

More than 60% of the total refractive power of the eye is attributed to the cornea making it vital to focusing light onto the retina for visual processing 115.

Explanation:

For optimal vision, the cornea must efficiently transmit incident light by maintaining its transparency.

1 3/10  because 130 is greater than 100 we have simplified this fraction even further to a mixed fraction.

Please provide positive integer to calculate.

Answer:

The thermic effect (TEF) is greater for protein compared to carbohydrate and fat. The body can store excess amino acids for later use. The protein-sparing effect spares the utilization of protein as an energy source and allows it to be used for more important metabolic functions.

Explanation: The moon's gravity, combined with the waltz of Earth and the moon around their center of mass, forces the oceans into an oval shape, with two simultaneous high tides. ... If the moon were half its mass, then the ocean tides would have been correspondingly smaller and imparted less energy to it.

Answer:

I think it is mechanical energy