Episodes

  • Forces
    Oct 19 2021

    So what is a force?

    A force is really just a push or a pull on an object. It occurs when two objects interact with each other. Forces can be contact forces, meaning that the objects have to actually touch. Or they can be at a distance, think along the lines of magnets or gravity. A force is still present but the objects are at a distance.

    It helps most to think about forces in terms of balance. You might hear the terms balanced or unbalanced forces.

    Just as with velocity, we split forces into dimensions. So we talk about vertical forces and horizontal forces. Forces that act in the vertical dimension and forces that act in the horizontal dimension.

    When balanced forces act on an object, that object does not move. Imagine tug of war where both teams are pulling completely equally. The force to the left is the same as the force to the right. They cancel each other out. They’re balanced.

    Unbalanced forces are forces that act on an object unequally. Imagine one tug of war team pulling with 70 N of force and the other team pulling with 40 N of force. They are unequal. They are unbalanced forces. The team pulling with more force will move the other team.

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    8 mins
  • Newton's Laws
    Sep 28 2021

    Let’s forget the math today and focus on Newton’s Laws.

    Newton was a mathematician and physicist born in the 1600s. He existed, taught and studied well before many of our modern discoveries had been made, but his impacts are still felt today. Most importantly, for us, in this Laws of Motion.

    There are 3 Laws of Motion. All have to do with force and how an object experiences force.

    The First Law is commonly referred to as the Law of Inertia. This law states that an object at rest stays at rest unless acted upon by an outside force. An object in motion stays in motion unless acted upon by an outside force.

    There are a few ways to interpret this → most simply, objects do not just spontaneously start moving. A force MUST be applied to them. If you ever see a ball start to roll, a book start to fall or a flag wave in the wind, it is because a force was applied.

    Similarly, object do not just spontaneously stop moving. A ball will roll and roll across the ground until … it hits a wall. Or until … the force of friction slows it down.

    Db Link:

    https://bit.ly/37cP8YP

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    7 mins
  • Projectile Motion - Part 2
    Sep 20 2021

    However, we don’t always just move objects at a parallel to the ground. More often than not, we move them at an angle. Think about your field goal kickers on a football field or a missile being launched. These objects move up, peak and then come down.

    We say that they follow a trajectory. They exhibit parabolic motion. The objects peak and then they fall. They are projectiles.

    There are many important things about this motion. First, lets focus on that angled launch. Remember how last time we had to pay careful attention to the phrasing of the problem? Was the initial velocity horizontal or vertical?

    Last week we talked about initial horizontal velocity. Objects launched parallel to the ground. But this week the launch is at an angle and so the velocity can be split into horizontal and vertical components.

    This is where geometry and trigonometry comes into play. Let’s imagine that a football is kicked at a 30 degree angle from the ground with an initial velocity of 28 m/s.

    The initial velocity is 28 m/s at a 30 degree angle. Velocity is a vector. Direction matters and therefore we are able to split the velocity into horizontal and vertical components.

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    17 mins
  • Projectile Motion - Part 1
    Aug 18 2021

    I promised an exciting episode that would take us into a whole new dimension.

    Let’s start talking projectile motion → the movement of objects that break beyond just one dimension and instead travel both horizontally and vertically.

    We are going to discuss objects that move down and sideways today. It is the easiest way to begin talking about projectiles.

    Imagine a cannon on the top of a cliff, shooting a cannon ball out. The ball travels horizontally out of the cannon, but eventually starts to fall down. Why?

    Gravity.

    Projectile motion shows that even when an object moves horizontally through the air, it is still subject to gravity pulling it down.

    Think of a paper airplane tossed out into the air. Or a pitcher throwing towards home plate.

    While we talk today, it’s important to imagine objects that are moving in a straight line horizontally and then falling.

    Don’t toss the paper airplane up and then watch it come down. Throw the paper airplane parallel to the ground and then see it glide down.

    The cannon ball is shot out of a completely horizontal cannon, not up at an angle.

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    13 mins
  • What Goes Up Must Come Down
    Aug 5 2021

    The past few weeks we have moved on from talking about objects moving horizontally, back and forth, and started to talk about objects that move vertically, up and down

    We started off by thinking about objects that fall, like an apple from a tree or a book off a shelf.

    Then we started to discuss objects that launch upward, like rockets

    And today we are going to connect the two

    Because what goes up … must come down

    When an object is launched, it goes up and up and up, until it STOPS

    And that is where we stopped in the last episode as well

    However, in reality we all know that when an object is launched, it goes up and up and up and then it stops and THEN it falls right back down to earth

    Naturally, I want to ask some questions about how that object falls.

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    11 mins
  • Launching Upward
    Jul 29 2021

    An important thing to keep in mind as we discuss upward vertical motion → we are talking about objects launching straight up into the air. Ideally, without wind or disproportionate weight or any other factors, an object launched upward from the ground would move in a straight line. That is the type of motion we are dealing with here.

    Two weeks ago we added an element to our motion repertoire: vertical motion.

    We started talking about motion in terms of falling - it just seemed easier to start with falling since we are all familiar with gravity

    We took a little detour last week to talk more in depth about the kinematic formulas - what each variable means and where they came from.

    When an object falls there are a few things to keep in mind -

    When an object hits the ground, we say that its final position (Yf) is zero.

    Objects that fall always have an initial velocity of 0 m/s because they are still in the instant before they fall.

    Finally, we always replace the a in our kinematic formulas with -9.8 m/s2. A negative because gravity pulls objects DOWN and we have set the standard that up is positive and down is negative.

    When we talk about an object that is moving up, things are not all that different.

    Remember a when we talked about the stomp rocket - you step on the launch pad and up they go.

    EarlyBird Link:

    https://partners.getearlybird.io/podcast

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    10 mins
  • The Kinematic Formulas
    Jul 22 2021

    Last week we listened to the start of a new idea. We expanded on motion and are now talking about up and down → vertical motion.

    We spent a lot of time getting accustomed to objects moving - where they are, how fast they move, what direction that movement is in

    And now we’re applying it to objects that are withstanding the force of gravity.

    Last week I gave you two equations → the first one was simple. It says v is equal to Vo (initial velocity) + a times t. (acceleration times time)

    The other formula was a little more complicated.

    The formula says position equals initial position + initial velocity times time plus ½ acceleration times time squared

    Y = Yo + vo t + ½ a t^2

    To truly use these formulas and to do so successfully, is to understand vertical motion.

    Vertical motion is an object moving up or down. I want you to imagine an apple falling from a tree when we are talking about an object falling down. I want you to imagine one of those stomp rockets where you set a little foam rocket on a launcher, attached to a pump that you step on and then the rocket goes up when you stomp. Imagine that rocket when we are talking about an object launching up.

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    12 mins
  • Free Fall
    Jul 14 2021

    We are going to spend the next episodes talking about TWO dimensional motion. UP & left, down & right. We are adding a whole new dimension to motion

    Before we do that,

    We are going to check off one more type of one dimensional motion → vertical motion. Motion that is UP or DOWN.

    When we start to talk about vertical motion we have to worry about gravity.

    If you throw a ball up into the air, what happens? It goes up and up, but eventually it comes back down.

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    12 mins