Why Is It So?

Invalid date - 2012

The Idea of the Center of Gravity

Episode 1

All of the weight of an object is at its center of gravity, says Miller. However, the center of gravity is not always at a point on the object. This leads to a few amazing balancing acts based on one principle: an odd-shaped system can stay in balance when its center of gravity is below the point of support.

Newton's First Law of Motion-Inertia

Episode 2

Newton's First Law has two parts, and Professor Miller does his best to teach them together. His demonstrations include familiar magic tricks, such as the board under a sheet of newspaper.

3. Newton's Second Law of Motion â€“ The Elevator Problem

Episode 3

F=ma is the standard shorthand for Newton's Second Law. But Professor Miller shows more depth, using two toy cars accelerating toward each other. He also expands F=ma into W=mg for falling bodies on Earth.

Newton's Third Law of Motion â€“ Momentum

Episode 4

The Earth must recoil when Professor Miller jumps. It's the first of many illustrations that confirm, ""To every action there is always an equal and contrary reaction.""

Energy and Momentum

Episode 5

From the outset, Miller emphasizes the difference between energy and momentum, first with the toy cars and then with a steel ball running a track. Miller then introduces the various kinds of energy.

Concerning Falling Bodies and Projectiles

Episode 6

Laws of motion and energy, discussed in earlier programs, converge in the real and virtual demonstrations Miller does on falling bodies and projectile motion. One principle says that horizontal motion does not affect vertical motion.

The Simple Pendulum and Other Oscillating Things

Episode 7

Anything can be a pendulum, says Professor Miller, and anything can oscillate. In fact, the period of a pendulum depends only on its length. Miller sets up demonstrations of various oscillating nodies. He also presents a puzzle about springs.

Adventures with Bernoulli

Episode 8

A family of 120 bore the name Bernoulli, and they were all geniuses. Miller points out how the Bernoulli principle affects our everyday lives: why two ships must not pass too closely on the sea, how a stream of air can suspend a ball above it, and many other things.

Soap Bubbles and Soap Films

Episode 9

Miller's experiments on soap films show the pressure on soap bubbles, plus the fact that soap films always form a surface of least energy.

Atmospheric Pressure â€“ The Properties of Gases

Episode 10

The atmosphere exerts an enormous force (15 pounds of pressure per square inch). Miller crushes steel cans, ruptures rubber, and breaks a wood plank with the atmosphere on his side.

Centrifugal Force and Other Strange Matters

Episode 11

Miller writes ""centrifugal"" in quotation marks because there is no force acting radially on rotating bodies. Balls, candles, hoops, and weights experience torques of which Miller says little.

The Strange Behavior of Rolling Things

Episode 12

All hoops roll alike, says Miller, and all disks beat all hoops when they race downhill. Thus Miller sends disks, hooops, and spheres rolling.

Archimedes' Principle

Episode 13

When a body is submerged in a liquid, it buoys up with a force equal to the weight of the liquid displaced. Miller shows this with a very clever set up involving cylinders submerged in water. He also points out a little of Archimedes' finest achievements. His greatest? Finding the ratio of volumes between a sphere, a cone, and a cylinder of equal height.

Pascal's Principle â€“ The Properties of Liquids

Episode 14

Blaise Pascal said liquids are incompressible. Any force exerted on a liquid is felt in all parts of the liquid without lessening of the force. Miller uses a pulley system to drive home that fact.

Levers, Inclined Planes, Geared-Wheels and Other Simple Machines

Episode 15

With a great many tools before him, Professor Miller sets out to prove that all tools and machines are linked to the two simplest: the lever and the inclined plane.

Top Cast

Julius Sumner Miller

Watch Providers 🇬🇧

Currently no watch providers

Production Companies

Full Cast

No Image

Julius Sumner Miller

Full Crew

No media available

showData