PPT Week 1 Midterm G12 General Physics 1 SY 2024-2025 PDF

Summary

This document is a presentation about general physics for a high school (G12) class in the University of Saint Louis. It includes topics on measurements, significant figures, and scientific notation, as well as introducing vectors and their applications. It is a presentation for Week 1 of the midterm.

Full Transcript

MIDTERM
WEEK 1
SLIDESMANIA
 WELCOME
BACK TO
SCHOOL!
SLIDESMANIA
WEEK LESSON LEARNING TASK
WEEK 1 System of Measurement Enrichment Activity
WEEK 2 Vectors Written Work 1
WEEK 3 KINEMATICS: MOTION IN 2D AND 3D Performance Task 1(Prototype-Making)

WEEK 4 Newton’s Laws Of Motion Performance Task 2 (Newton’s Cradle)

WEEK 5 Free-Body Diagram Written Work 2

Week 6 Work, Energy, and Energy Conservation Performance Task 3 (Comic Strip)

Week 7 Centre of Mass, Momentum, Impulse, and Enrichment Activity
Collision
Week 8 Rotational equilibrium and rotational Enrichment Activity
dynamics
Name: Hazel B. Limon

Address: Pussian, Alcala,
Cagayan

Birthday: August 31, 1998
MECHANICS:
1. Begin by introducing the activity and explaining that students must
brainstorm a list of everyday objects or phenomena that they think
involve physics.
2. Provide students a few examples to get them started.
3. Give students 10-15 minutes to work individually or in small groups to
brainstorm as many ideas as they can.
MECHANICS:
4. After the brainstorming session, have students share their ideas with the class and
write them on the board or a large piece of paper.
5. As a class, discuss the ideas and identify which involve physics which ones
involve physics concepts.
6. Finally, remind students that physics is all around us and that understanding these
concepts can help us better understand and appreciate the world we live in.
At the end of the lesson, the students should be able to:

describe the need for the International Standard Units of Measurement in our
today’s lives excellently;
convert measurements from one unit to the other;
identify units that are widely used in our day to day activity at home and in
school; and
solve measurement problems involving conversion of units.
SLIDESMANIA
RULE # 1
Nonzero digits are
always significant.

38.57 mL = (4)
288 g = (3)
 RULE # 2
Zeroes are sometimes significant, and
sometimes they are not.
a. Zeroes at the beginning of a number (used just to position the
decimal point) are never significant.

0.052 g (2)
0.00364 m (3)
SLIDESMANIA
 RULE # 2
Zeroes are sometimes significant, and
sometimes they are not.
b. Zeroes between nonzero digits are always significant.

2007 g (4)
6.08 km (3)
SLIDESMANIA
 RULE # 2
Zeroes are sometimes significant, and
sometimes they are not.
c. Zeroes at the end of a number that contains a decimal point
are always significant.

38.0 cm (3)
440.0 m (4)
SLIDESMANIA
 RULE # 2
Zeroes are sometimes significant, and
sometimes they are not.
d. Zeroes at the end of a number that does not contain a
decimal point may or may not be significant.

24,300 km (3, 4, 5)
7,500 Ml (2, 3, 4)
SLIDESMANIA
RULE # 3
Exact numbers can be considered as
having an unlimited number of significant
figures. This applies to defined quantities.

1 yard = 3 ft
1 in. = 2.54 cm
1 ream=500 sheets
 RULE # 4
In addition and subtraction, the
last digit retained in the sum or
difference is determined by the
position of the first doubtful digit.
SLIDESMANIA
 Addition
37.24 mL + 10.3 mL = 47.54 mL
This will be reported as 45.5 mL

Subtraction
27.87 – 21.2342 g = 6.6358 g
This will be reported as 6.64 g
SLIDESMANIA
 RULE # 4
In multiplication and division,
an answer contains no more
significant figures than the least
number of significant figures
used in the operation.
SLIDESMANIA
 Multiplication
2.5 X 3.42=8.55
This will be reported as 8.6
SLIDESMANIA
 What is the area of a
rectangle 1.23 cm
wide and 12.34 cm
long?
SLIDESMANIA
At the end of the lesson, the students should be able to:

determine the role of scientific notation in measurement; and
solve measurement problems involving conversion of units,
expression of measurements in scientific notation.
SLIDESMANIA
RULE # 1

MOVING THE DECIMAL
POINT
Move the decimal point until there is a single digit (1-9) at
the left position of the decimal point.

12,000,234.00 = 12,000,234.00
 RULE # 2
COUNT
Count how many places the decimal point moved. The number it
moved will be the exponent of the 10 in the notation.

12,000,234.00
7 moves
SLIDESMANIA
RULE # 3

Write the notation

12,000,234.00 =
1.20 x 10^7
C

7
100%
%

8
X
2

9
<

/
Try this:
4 5 6 X

1

C
E
2

0
3.
+

=
1. 10,042,017 =
2. 0.0212 =
3. 312,125 =
4. 0.000000911 =
5. 2300 =
SLIDESMANIA
Fundamental
Quantities
Derived Quantities
 In your opinion, what is
the essence of using
significant figures and
scientific notation in
presenting numerical
values?
SLIDESMANIA
SLIDESMANIA
Common Conversion Factors
 ,

55.13 lbs
,

km
125.50 km
,

29.53 in/min
 100%
C

7
%

8
X
2

9
<

/
Try this:
24 km= __ m
4 5 6 X

1

C
2 3
1.
+

0. =

123 m= __ km
E

2.
3. 49 inch= __ cm
4. 12 ft= __ mi
5. 1.21 x 10^22 s= __hr= __days
 ACCURACY VS. PRECISION

Accuracy refers to the
Precision refers to how
closeness of measured
close the measured
values to the actual
values are to each other.
value.
SLIDESMANIA
SLIDESMANIA
 Systematic error- due to
uncalibrated Instrument or
equipment for
measurement.

Type of
Errors

Random error- due to
unknown and unpredictable
changes in the experiment.
SLIDESMANIA
At the end of the lesson, the students should be able to:

perform addition of vectors;
rewrite a vector in component form
identify the different roles of physics particularly to the
Christian living; and
differentiate derived units from base units.
SLIDESMANIA
 Scalar vs Vector
SCALAR VECTORS
Have MAGNITUDE only Have both MAGNITUDE
and DIRECTION
SLIDESMANIA
 Scalars Vectors
Name Quantity Name Quantity
Distance 10 m Displacement 10 m, South
Time 5 minutes Acceleration 9.8 m/s2, downward
Mass 3 kg Weight 3 N, downward
Speed 30 km/hr Velocity 30 km/hr, 30° North East
Area 64 m2 Force 30 N, 43 ° South West
Volume 100 ml Tension 100 N to the right
Work 300 J Friction 20 N, to the left
Resistance 4Ω Torque 100 N.m, counter clockwise

Voltage 220 V Momentum - 1000 kg.m/s
Current 1A Electric Field + 450 N/C
Density 2.7 g/cm3 Magnetic Field + 600 Tesla
Power 760 watt
Temperature 273 K
Pressure 1 atm
Frequency 8 Hertz
Wavelength 540 nm
C

7

4
%

8

5
X
2

9

6
<

/

X
Try this:
QUANTITY NAME SCALAR OR VECTOR
1 2 3 +

1) 39 °C
C
E 0. =

2) 10OO km ,West
3) 500 N , 30 degrees
North East
4) 50 kph
5) 1 , 500 J
6) 500 Giga Byte
7) 100 Hertz
8) 3 x 10^8 m/s
9) 1 year
10) 250 kg.m/s , to
the left
SLIDESMANIA
 Adding
Vectors
SLIDESMANIA
 Rules in Adding Vectors
Collinear Vectors Non collinear Vectors

Vectors that are parallel Intersecting vectors
to the same line.
Same direction- Addition
Opposite direction –
Subtraction
SLIDESMANIA
 Same Direction- ADD

A man walks 54.5 meters east, then
another 30 meters east. Calculate his
displacement relative to where he
started?
SLIDESMANIA
 Opposite Direction-
SUBTRACT
A man walks 54.5 meters east, then 30
meters west. Calculate his
displacement relative to where he
started?
SLIDESMANIA
 Non collinear Vector

A man walks 95 km, East then 55
km, north. Calculate his resultant
displacement.
SLIDESMANIA
 Non collinear Vector

Suppose a person walked 65 m, 25
degrees North of East. What were his
horizontal and vertical components?
SLIDESMANIA
 Component of Vectors
Ax= A cos Ɵ (horizontal component)
Ay= A sin Ɵ (vertical component)
SLIDESMANIA
 Component of vectors
Multiple Vectors
2 2
Ax= A cos Ɵ
Ay= A sin Ɵ
Bx= B cos Ɵ
By= B sin Ɵ

Rx= Σ Ax Bx
SLIDESMANIA

Ry= Σ Ay By
 A= 21 m, 45° N of E
B= 12 m, 45° N of W
SLIDESMANIA
 A= 4 m, 40° N of E
B= 2 m, E
C= 5.20 m, 30° S of W
D=6.50 m, S
SLIDESMANIA
 Problem Solving!

Siam walks 26 yards to the north
along the sideline, pauses, and
walks 12 yards back to the south.
SLIDESMANIA
 Problem Solving!
On her trip from home to school, Lucky
drives along three streets after exiting the
driveway. She drives 1.85 miles south,
2.43 miles east and 0.35 miles north.
Determine the magnitude of Karla's
resultant displacement.
SLIDESMANIA
 Problem Solving!
Determine the magnitude and
direction of the resultant force that
acts on a body which is 200 N East
and another force of 150 N, 30
degrees North of West.
SLIDESMANIA
 Problem Solving!
A jogger runs directly North for 30
km, then turns to the West and
goes 20 km. How far is she from
the starting point and in what
direction?
SLIDESMANIA
 It is important to measure certain things
right such like; distance, time, and
accuracy. By measuring these things, we
can better understand the world around
us. Life as a matter of fact, cannot
succeed if there is no such thing as
measurement because the Creator gave
us the exact amounts of everything we
are made of in order for us to live.
SLIDESMANIA
Enrichment Activity
Thank
you!
SLIDESMANIA