PHYSICS HIGH SCHOOL

While driving on a rural road, your right wheels run off the pavement. You should hold the steering wheel firmly andA: Immediately steer left, back toward the paved surface of the road.B: Steer to the right, toward the shoulder or ditch.C: Steer in a straight line while gently slowing down.

Answers

Answer 1

Answer:

Answer:

The answer is C. Steer in a straight line while gently slowing down

Explanation:

The following are advised when your cars go off the pavement while driving;

firstly, Do not panic.

ensure you hold on to your steering wheel tightly.

keep Steering straight ahead.

ensure you Stay on the shoulder.

Ease up on the accelerator and brake gently.

When you know you can safely do so, turn back on the road at a much lower speed.

Answer 2

Answer:

Final answer:

When the right wheels run off the pavement while driving, you should hold the steering wheel firmly, continue driving straight, and slowly reduce your speed. This avoids the dangers of immediately steering back onto the road or towards the shoulder.

Explanation:

While driving on a rural road, if your right wheels run off the pavement, the safe response would be to hold the steering wheel firmly and steer in a straight line while gently slowing down. Immediately steering back towards the paved surface (option A) can cause your vehicle to roll or veer into oncoming traffic. Steering towards the shoulder or ditch (option B) risks hitting obstacles or further losing control. By continuing straight at a controlled, reduced speed, you can safely return to the pavement when there's a break in the roadside or ample space to move back onto the road.

Learn more about Safe driving response here:

brainly.com/question/23463928

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Thermal conductors don’t have to be hot to transfer heat. According to Ch.16, explain a situation when an ice cube would still transfer heat to another object it is in contact with.

Answers

The law of thermodynamics is that the heat transfers from a hot object to a cold one. This is how the heat gradient goes. An ice can transfer heat when it is in contact with an object which is lower in temperature. For example when ice cube touches an object of temperature -50 degree Celsius.

Answer:

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A 3-ohm resistor and a 6-ohm resistor areconnected in parallel across a 9-volt battery.
Which statement best compares the potential
difference across each resistor?
(1) The potential difference across the 6-ohm
resistor is the same as the potential
difference across the 3-ohm resistor.
(2) The potential difference across the 6-ohm
resistor is twice as great as the potential
difference across the 3-ohm resistor.
(3) The potential difference across the 6-ohm
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difference across the 3-ohm resistor.
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Answers

Answer: The potential difference across both the resistors is the same.

Explanation :

Given that, two resistors 3 -ohm and 6 ohms are connected in parallel across a 9-volt battery. The equivalent resistance, in this case, is given by :

$(1)/(R_(eq))=(1)/(R_1)+(1)/(R_2)$

In parallel combination, the current across each resistor divides and the potential difference remains the same.

So, the correct statement is (1) "The potential difference across the 6-ohm resistor is the same as the potential difference across the 3-ohm resistor."

The statement best compares the potential difference across each resistor will be 1.

What is resistance?

Resistance is a type of opposition force due to which the flow of current is reduced in the material or wire. Resistance is the enemy of the flow of current.

The equivalent resistance is given by;

$(1)/(R_(eq)) = (1)/(R_1) + (1)/(R_2)$

When two resistors are connected in parallel, the current across each resistor splits while the potential difference stays constant.

The potential difference across the 6-ohmresistor is the same as the potential difference across the 3-ohm resistor.

Hence the statement best compares the potential difference across each resistor will be 1.

To learn more about the resistance refer to the link;

brainly.com/question/20708652

a warrior swings a slingshot in a horizontal circle above his head at a constant speed. The sling is 1.5 m long, and the stone has a mass of 50 g. The tension in the string is 3.3 N. When he releases the sling, what will the stone's speed be?

Answers

The speed of the stone when he releases the sling is equal to 9.95 m/s.

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$V = r\omega\n\nV=1.5 * 6.63$

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