when an object is placed 12 inches from the face, how will the lens change to help focus on the object?

As the air flows through convection oven, the required temperature less for this type of oven and convection ovens cook food more quickly and evenly.

Compared to a traditional oven, a convection oven enables a reduction in cooking temperature. This comparison will change based on various elements, such as the quantity of food being cooked at once or when airflow is being impeded, such as by an excessively large baking tray.

The fact that flowing air transfers heat more quickly than still air of the same temperature balances out this variation in cooking temperature. The temperature must be lowered to slow down the rate of heat transfer in order to transfer the same quantity of heat in the same length of time.

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The energy needed is 35.4 KJ, to pop the corn of a given quantity, and by using latent heat of vaporization of water.

What is Energy?

When work is done and heat and light are produced, energy is the quantitative quality that is transferred to the body or to the physical system. The law of conservation of energy asserts that although energy can be changed in form, it cannot be created or destroyed. Energy is a conserved quantity.

Calculations:

The boiling point of water is 175 °C.

The mass of corn is 95.0 g.

The percentage of water in corn is 14%.

The latent heat of vaporization for water at 175 °C is 0.90 times its value at 100 °C.

Calculate the mass of water,

Mw = (14/100) × (95g) × (1kg/1000g)

      =  0.0133 Kg

calculate the latent heat of vapourization,

Lv = (0.9) × (2.26 × [tex]10^{6}[/tex]J/kg)

   =  2.034 × [tex]10^{6}[/tex] J/kg

Total heat required,

Q = Mw  Lv + Mw. C Δ T

Substitute the values,

Q = (0.0133) × (2.034 × [tex]10^{6}[/tex]) + (0.0133) × (4186) × (175.25)

  = (35403.27 J) × ( 1KJ/ 1000J)

  = 35.4 KJ

Hence, the energy needed is 35.4 KJ, to pop the corn of a given quantity.

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Answer:

Explanation:f=ma. S=ut+at(t)/2

s=at(t)/2  2s/t(t)=a

f=m(2s)/t(t)

f(t)(t)/2m=s

40(2)(2)/2(10)=s

160/20=s

s=8m

b.w=f(s)

40(8)=w. W=320J

KE=m(v)(v)/2

V(V)=U(u)+2aS

kE=M[(U)(u)+2as]

u=0

KE=2mas.  KE=2(10)(4)(8). KE=640J

v(v)=u(u)+2as

v(v)=2(4)(8)

v(v)=64

v=8

Free fall motion is motion in which the only force acting on the body is gravity.

A free-falling object is one that moves only due to the effect of gravity, and its motion is defined by Newton's second law of motion. We can use algebra to calculate the acceleration of a free-falling particle.

The student should launch the sphere at 2v₀, for the sphere will land at approximately 1.41D, which is in the 3 point zone

The given parameter are;

The distance covered by the sphere when launched at height, H = D

The velocity with which the ball reaches D = v₀

The current available height of launcher= H/2

The available velocities = v₀, and 2v₀

Now,

From H = ut + (1/2)gt², where, initial velocity of the vertical motion of the ball, u = 0

we know;

H = (1/2)gt²

Therefore, the time it takes the ball to drop from H, t = √(2H/g)

The distance, D = v₀ × √(2H/g)

When the height is H/2, we get;

t = √(2H/(2g)) = √(H/g)

Thus, the distance covered, D₁ = v₀ × √(H/g)

Therefore, D = (√2) × v₀ × √(H/g) = (√(2))D₁

Now, D₁ = D/(√2) ≈ 0.71D

D₁ ≈ 0.71D

At speed 2v₀, we have;

D₂ = 2v₀ × √(H/g) = √2 × v2 × v₀ × √(H/g) = √2 × v₀ × √(2H/g) = √2D₁ ≈ 1.41D

D₂ ≈ 1.41D

The 2 point zone = D/2 < x < D = 0.5D < x < D (Position D₁ ≈ 0.71D is located here)

The 3 Point Zone =  D < x < 3D/2 = D < x < 1.5D (Position D₂ ≈ 1.41D is located here)

Given that at D₂, the ball lands in the 3 Point Zone, the student should launch the sphere at the speed, 2v₀, so that the ball will land at D₂ ≈ 1.41D,  which is in the 3 Point Zone

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The complete question is as follows:

A group of students prepare for a robotic competition and build a robot that can launch large spheres of mass M in the horizontal direction with variable speed and from a variable vertical position and a fixed horizontal position x=0.

The robot is calibrated by adjusting the speed at which the sphere is launched and the height of the robot’s sphere launcher. Depending on where the spheres land on the ground, students earn points based on the accuracy of the robot. The robot is calibrated so that when the spheres are launched from a vertical position y=H and speed v0, they consistently land on the ground on a target that is at a position x=D. Positive directions for vector quantities are indicated in the figure.

When the students arrive at the competition, it is determined that the height of the sphere launcher can no longer be adjusted due to a mechanical malfunction. Therefore, the spheres must be launched at a vertical position of y=H2. However, the spheres may be launched at speed v0 or 2v0.

Question: In a clear response that may also contain diagrams and/or equations, describe which speed, v0 or 2v0, the students should launch the sphere at so that they earn the maximum number of points in the competition.

The minimum velocity the roller-coaster would need when going over the 13 m hill to make it to the top of the 26 m hill is 16.56 m/s.

Force is defined as the physical quantity or the power.

the normal force would havening  to point away from the group center of the curve. Unless they have belts, the riders will fall from the cars.

In a teardrop-shaped in the continuous loop the radius of curvature r decreases, causing them centripetal acceleration to increase. The speed would be  decrease as the car rises (because of gravity), but it is they are

overall by the effect is that the required centripetal force of the increases, meaning is the  normal force increased there is less danger if not to the  wearing a seat belt.

Suppose the minimum velocity is v.

Then mechanical energy at top of 13m hill is:

0.5 mv² + mgh

= 0.5 mv² + 15mg

g = 9.81 m/s/s (acceleration due to gravity).

All of this (assuming no loss due to friction) is converted to potential energy at top of 29m hill

So,

0.5 m v² + 15mg = 29mg

0.5 m v² = 14 mg

v² = (14 × 9.8)/0.5

v² = 274.4

v = 16.56 m/s

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The kinetic energy of balls is conserved, the collision is elastic.

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Answer: Gravity is what holds the planets in orbit around the sun and what keeps the moon in orbit around Earth

Explanation: