what would happen to the gravitational force between earth and the moon if the distance between them increased?

Answer:

a) C = (5-4D)/3

Explanation:

Given the simultaneous equation

3C+4D = 5 .... 1

2C+5D = 2 .... 2

In order to isolate one of the variables, we will make one of the variables in any of the equation.

Using equation 1:

3C+4D = 5

Make C the subject of the formula:

Subtract 4D from both sides of the equation.

3C+4D-4D= 5-4D

3C = 5-4D

Divide both sides by 3:

3C/3 = (5-4D)/3

C = (5-4D)/3

Hence the expression that would result from the process is C = (5-4D)/3

Answer:

33°

Explanation:

We are given;

Speed at which both snowballs are thrown; v = 33.2 m/s

Angle at which snowballs are thrown with respect to the horizontal; θ = 57°

Now,we want to find out the angle at which the second snowball should be thrown in order to arrive at the same point as the first.

To calculate this angle, we will use complementary angle concept.

Now, because the target is in the same place, there will be two launch angles that will make the snow ball to be placed on the target.

The is calculated from;θ1 = 45° - (57° - 45°) = 33°

Answer:

a) 1.06*10^-5

b) 0.00105 °C^-1

Explanation:

Given that

Length of the cylinder, L = 1.5 m

Radius of the cylinder, r = 0.25 cm

Voltage across the rod, V = 15 V

I• at Temperature T• = 20° C is 18.5 A

I at Temperature T = 90° C is 17.2 A

See attachment for calculations

Answer:

the farther you are from earth

Explanation:

It is this because when you get into space there is less gravity

Answer:rhe answer is zink

Explanation:i got he anwer rong and it say that one was right it is in ed geunity :)

Answer:

The answer is Zinc on Edegenuity.

Explanation:

Answer

.0003

Explanation:

Answer:

can you make the pic more clear

i think it's D

Answer:

OK IS THERE A ANSWER TO THIS

Explanation:

Explanation:

1) 1 : to Prevent a burning we use tongs

2:it can burn our skin hoa it's help

2) 1: because pulley helps in water draw from a well

3) 1: second class lever has mechanical advantage more than one as load is in between fulcrum an effort making the effort arm longer than the load arm

Answer:

The answer is "Option d".

Explanation:

If we assume the sum of energy which could be obtained by completely transforming a volume unit, m. Its compared to the speed of light throughout this link. In that situation, the whole mass of its electron becomes power. In this, each electron should produce 510 keV depending on Einstein's connection, that's why only the choice "d" is correct.

Assuming no air restance the speed when the ball comes back to the starting point will be again 8ms but directed DOWNWARDS; we can express this by saying that it will equal to −8ms adding a minus to indicate the downward direction.

To find the time of flight we use:

vf=vi+at

Where:

a is the acceleration of gravity (downwards, −9.8ms2);

vi=+8ms

vf=−8ms

So, we get:

−8=8−9.8t

−16=−9.8t

t=169.8≈1.6s

The answer is "B"

Answer link

Analysing the Question:

Neglecting air resistance

We are given:

mass (m) = 15 kg

time taken by the rock to reach the water (t) = 1 second

height of the cliff (h) = h m

initial velocity of the rock (u) = 0 m/s  [ the rock was 'dropped' and not 'thrown' downwards]

acceleration of the rock due to gravity (a) = 9.8 m/s²

Finding the height to the cliff:

from the seconds equation of motion

s = ut + 1/2*at²

replacing the variables

h = (0)(1) + 1/2 * (9.8) *(1)²

h = 4.9 m

Therefore, the cliff is 4.9 m high

Answer:

Explanation:

[tex]a_{x}=0[/tex] [tex]v_{xo}= v_{o}cos(delta)t[/tex] [tex]a_{y}=-g[/tex] [tex]v_{yo}=sin[/tex]θ

X-direction                                     | Y-direction

[tex]x=x_o+v_{xo}t[/tex] ⇒ [tex]x=v_{xo}cos(delta)t[/tex] |

Answer:

The force on each wire is  

   [tex]T_1  = 12.5 \ N  [/tex]

     [tex]  T_2  =   25 \  N  [/tex]

    [tex]  T_3  =  50  \  N  [/tex]

Explanation:

From the question we are told that

   The acceleration at which the elevator will stop is  [tex]a =  \frac{g}{4}[/tex]

    The weight of each section of the wire is  [tex]W =  \ 10 \ N[/tex]

Generally [tex]W_1 = W_2 = W_3[/tex] here  [tex]W_1 , W_2 , W_3[/tex] are weight at each section

Generally considering the first section, the force acting along the y-axis  is mathematically represented as

       [tex]\sum F_y_1 =  T_1 - W_1 =  m *  a[/tex]

Here [tex]T_ 1[/tex] represents the tension on the wire at the first section while  [tex]W_1[/tex] represents the weight  of the lamp at the first section

So

      [tex]T_1  - 10 = m *  \frac{g}{4}[/tex]

=>    [tex]T_1  - 10 =  \frac{W_1}{4}[/tex]

=>    [tex]T_1  - 10 =  \frac{10}{4}[/tex]

=>    [tex]T_1  = 12.5 \ N  [/tex]

Generally considering the second section, the force acting along the y-axis  is mathematically represented as

      [tex]\sum F_y_2 =  T_2 -T_1- W_2 =  m *  a[/tex]

=>   [tex]  T_2 - T_1- 10 =  m *  \frac{g}{4}[/tex]

=>   [tex]  T_2 - 12.5- 10 =    \frac{W_2}{4}[/tex]

=>  [tex]  T_2- 12.5- 10 =    \frac{10}{4}[/tex]

=>   [tex]  T_2  =   25 \  N  [/tex]

Generally considering the third  section, the force acting along the y-axis  is mathematically represented as

    [tex]\sum F_y_3 = T_3- T_2 -T_1- W_3 =  m *  a[/tex]

    [tex]  T_3 - T_2 - T_1- 10 =  m *  \frac{g}{4}[/tex]

      [tex]  T_3 - 25 - 12.5- 10 =    \frac{W_2}{4}[/tex]

       [tex]  T_3 - 25 - 12.5- 10 =    \frac{10}{4}[/tex]

       [tex]  T_3  =  50  \  N  [/tex]

Answer:

The time taken is  [tex]t =   6.102 \  hours [/tex]

Explanation:

From the question we are told that  

    The velocity of the train is [tex]v_t = 6.1 \ m/s[/tex]

    The distance covered by the train is  [tex]D =  134 \  km  =  134000 \  m[/tex]

Generally the time taken is mathematically represented as

     [tex]t =  \frac{  134000}{ 6.1 }[/tex]

=>    [tex]t =  \frac{  134000}{ 6.1 }[/tex]

=>    [tex]t = 21967.21 \ sec [/tex]

Converting to hours

       [tex]t = 21967.21  =  \frac{21967.21 }{3600} =   6.102 \  hours [/tex]

Answer:

The area under the speed - time graph denotes the distance travelled by the object

In the given graph, we just have to think about the first 4 seconds, we also notice that the velocity at 4 seconds is 20 m/s

The distance travelled by the object in 4 seconds is the area of the triangle in the graph with a base of 4 units and height of 20 units (image included)

Distance Travelled = Area of triangle =  1/2 * base * height

Distance Travelled = 1/2 * 4 * 20

Distance travelled = 4 * 10

Distance travelled = 40 m

Complete Question

The concentration of salt in a fluid at (x,y,z) is given by F(x,y,z)=x^2+y^4+2x^2z^2 mg/cm3 You are at the point (1,1,1).

a. In which direction should you move if you want the concentration to increase the fastest?

I keep getting <5,2,8> for this answer and it says it is incorrect

You start to move in the direction you found in part (a) at a speed of 4 cm/sec. How fast is the concentration changing?

Answer:

a

  [tex]\vec \Delta  F (1 ,1 , 1) =  < 6  , 4 , 4 >[/tex]

b

 [tex] M =  2 \sqrt{ 17 }[/tex]

Explanation:

From the question we are told that

  The equation is [tex]F(x,y,z)=x^2+y^4+2x^2z^2[/tex]

differentiating with respect to x

     [tex]F_x (x, y, z) =  2x + 4xz^2[/tex]

differentiating with respect to y

     [tex]F_y (x, y, z) =  4y^3[/tex]

differentiating with respect to z

     [tex]F_z (x, y, z) =  4x^2z[/tex]

Gnerally the rate of change of the salt concentration is mathematically represented as

     [tex]\vec \Delta  F (x ,y , z) =  <F_x  , F_y , F_z >[/tex]

=>  [tex]\vec \Delta  F (x ,y , z) =  <2x + 4xz^2  ,4y^3 , 4x^2z >[/tex]

At  the point (1,1,1)

    [tex]\vec \Delta  F (1 ,1 , 1) =  <2(1) + 4(1)(1)^2  ,4(1)^3 , 4(1)^2(1) >[/tex]

=> [tex]\vec \Delta  F (1 ,1 , 1) =  < 6  , 4 , 4 >[/tex]

generally rate at which the concentration is changing is mathematically represented as

     [tex]M=  \sqrt{ 6^2 +4^2 + 4^2}[/tex]  

=>    [tex]M=  \sqrt{ 36 + 16 + 16}[/tex]  

=>    [tex]M=  \sqrt{68}[/tex]

=>    [tex]M =  \sqrt{ 4 *  17 }[/tex]

=>    [tex]M=  2 \sqrt{ 17 }[/tex]

Answer : The correct option is (A).

Explanation :

As we know that a magnet is an object which produces an invisible magnetic field and attract metals like iron, nickel, cobalt.

The magnets have two poles that is a north pole and a south pole.

If you take a magnet and cut a magnet in half then two pieces would separate and form new sets of poles. That means, when we cut a magnet of south-north pole then it gives two pieces of magnet like south-north and south-north pole.

From the given options we conclude that the option A is the representation of original image of magnet.

Hence, the correct option is (A).

Answer:

A

Explanation:

IMAGE

Answer:

The equilibrium temperature is 45°C

Explanation:

Given;

mass of block of ice, m₁ = 10 kg

mass of water, m₂ = 10 kg

initial temperature of the ice, t₁ = 0.0°C

initial temperature of water, t₂ = 90.0°C

let the equilibrium temperature = T

Apply the principles of mixture;

Heat lost by the water = heat gained by the ice

m₂c(90 - T) = m₁c(T - 0)

m₂(90 - T) = m₁(T - 0)

10(90 - T) = 10(T)

90 - T = T

90 = 2T

T = 90 / 2

T = 45°C

Therefore, the equilibrium temperature is 45°C

Answer:coherent light

Explanation:

Answer:

Δϕ = -2.89 x 10^-4 Wb

Explanation:

Given that A 200-loop coil of cross sectional area 8.5 cm2 lies in the plane of the page. An external magnetic field of 0.060 T is directed out of the plane of the page. The external field decreases to 0.020 T in 12 milliseconds. What is the magnitude of the total change in the external magnetic flux enclosed by the coil

Let ΔB = Change in magnetic field

A = cross sectional area = 8.5 cm^2

t = time = 12ms

Flux change = Δϕ = (ΔB*A) / t

Δϕ =  [(0.02 - 0.06)x(8.5 x 10^-2)^2 ] / 0.012

Δϕ = (-0.04 x 7.225^-3) / 0.012

Δϕ = -2.89 x 10^-4 Wb

Therefore, the magnitude of the total change in the external magnetic flux enclosed by the coil is -2.89 x 10^-4 Wb

Answer:

B and D

Explanation:

The movement of kinetic energy from one media or item to another, or from an energy source to a medium or object, is referred to as heat. The correct statements are B and C.

The movement of kinetic energy from one media or item to another, or from an energy source to a medium or object, is referred to as heat. Energy may be transferred in three ways: radiation, conduction, and convection.

The statement that is correct in terms of heat and temperature are:

B. Heat from your feet raises the temperature of the water.

C. Your feet transfer heat into the surrounding water, reducing the temperature of your feet.

These two statements are correct because two statements out of four are stating about heat transfer is due to temperature difference.

Hence, the correct statements are B and C.

Learn more about Heat here:

https://brainly.com/question/1429452

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Answer:

a) High and low pressures are 15.999 kilopascals and 10.666 kilopascals, respectively.

b) High and low pressures are 2.320 pounds per square inch and 1.547 pounds persquare inch, respectively.

c) High and low pressures are 1.632 meters water column and 1.088 meters water column, respectively.

Explanation:

a) High and low pressures in kilopascals:

101.325 kPa equals 760 mm Hg, then, we can obtain the values by a single conversion:

[tex]p_{high} = 120\,mm\,Hg\times \frac{101.325\,kPa}{760\,mm\,Hg}[/tex]

[tex]p_{high} = 15.999\,kPa[/tex]

[tex]p_{low} = 80\,mm\,Hg\times \frac{101.325\,kPa}{760\,mm\,Hg}[/tex]

[tex]p_{low} = 10.666\,kPa[/tex]

High and low pressures are 15.999 kilopascals and 10.666 kilopascals, respectively.

b) High and low pressures in pounds per square inch:

14.696 psi equals 760 mm Hg, then, we can obtain the values by a single conversion:

[tex]p_{high} = 120\,mm\,Hg\times \frac{14.696\,psi}{760\,mm\,Hg}[/tex]

[tex]p_{high} = 2.320\,psi[/tex]

[tex]p_{low} = 80\,mm\,Hg\times\frac{14.696\,psi}{760\,mm\,Hg}[/tex]

[tex]p_{low} = 1.547\,psi[/tex]

High and low pressures are 2.320 pounds per square inch and 1.547 pounds persquare inch, respectively.

c) High and low pressures in meter water column in meters water column:

We can calculate the equivalent water column of a mercury column by the following relation:

[tex]\frac{h_{w}}{h_{Hg}} = \frac{\rho_{Hg}}{\rho_{w}}[/tex]

[tex]h_{w} = \frac{\rho_{Hg}}{\rho_{w}}\times h_{Hg}[/tex] (Eq. 1)

Where:

[tex]\rho_{w}[/tex], [tex]\rho_{Hg}[/tex] - Densities of water and mercury, measured in kilograms per cubic meter.

[tex]h_{w}[/tex], [tex]h_{Hg}[/tex] - Heights of water and mercury columns, measured in meters.

If we know that [tex]\rho_{w} = 1000\,\frac{kg}{m^{3}}[/tex], [tex]\rho_{Hg} = 13600\,\frac{kg}{m^{3}}[/tex], [tex]h_{Hg, high} = 0.120\,m[/tex] and [tex]h_{Hg, low} = 0.080\,m[/tex], then we get that:

[tex]h_{w, high} = \frac{13600\,\frac{kg}{m^{3}} }{1000\,\frac{kg}{m^{3}} } \times 0.120\,m[/tex]

[tex]h_{w, high} = 1.632\,m[/tex]

[tex]h_{w, low} = \frac{13600\,\frac{kg}{m^{3}} }{1000\,\frac{kg}{m^{3}} } \times 0.080\,m[/tex]

[tex]h_{w, low} = 1.088\,m[/tex]

High and low pressures are 1.632 meters water column and 1.088 meters water column, respectively.

Answer:

A B and C are correct I think

The three statements that gives the proof with related to the conversation of energy should be option A, option B, and option C.

It is the principle of physics where the energy of the bodies should be interacted and remained the same. In this, the chemical energy in the cereal that shifted to the mechanical should be considered. The thermal energy resulted the kinetic energy so that there is the increment of the air particles. And, the chemical energy in the cereal should be shifted to the thermal energy should raise the temperature of the body.

Learn more about conversation of energy here: https://brainly.com/question/11234965?referrer=searchResults

Answer:

299,792 kilometers

Explanation:

Light travels at a speed of 299,792 kilometers per second; 186,287 miles per second.

Answer:

299,792

Explanation:

Hope this helped, if not, don’t hate.

Answer:

[tex]a=2.8\ m/s^2[/tex]

Explanation:

Given that,

Initial velocity of an object, u = 22 m/s

Final velocity of an object, v = 36 m/s

Time, t = 5 s

It can be assumed to find the average acceleration of the object instead of average velocity.

The change in velocity per unit time is equal to average acceleration of an object. It can be given by :

[tex]a=\dfrac{v-u}{t}\\\\a=\dfrac{36\ m/s-22\ m/s}{5}\\\\\a=\dfrac{14}{5}\ m/s^2\\\\a=2.8\ m/s^2[/tex]

So, the acceleration of the object is [tex]2.8\ m/s^2[/tex].

Answer:

D. Acceleration remains constant and velocity is negative and decreasing.

Explanation:

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