Science 7 Q2 Summary of Lessons PDF

Summary

This document provides a summary of lessons related to cell biology and microscope interactions for seventh-grade students. It encompasses information about cell structure and function, including different organelles and their roles. Details are covered including, but not limited to, plant versus animal cells and microscope anatomy questions.

Full Transcript

MICROSCOPE

MICROSCOPY TIMELINE
YEAR DISCOVERY
1000 CE unidentified inventor reading stone
1284 Italian Salvino D' Armate;
first pair of wearable eyeglasses
1590 Dutch eyeglass craftsmen Zacharias Janssen and his son Hans Janssen telescope
and compound microscope
1665 English physicist Robert Hooke Discovered in a cork using the microscope lens the
"pores" or "cells"

Parts of a Microscope and their functions
Eyepiece (Ocular Lens): The lens at the top of the microscope that you look through, usually with a
magnification of 10x or 15x.
Arm: The part of the microscope that connects the base to the head and the eyepiece tube. It is
used to carry the microscope.
Stage Clips: Metal clips on the stage that hold the slide in place.
Coarse Adjustment Knob: A larger knob used for focusing the microscope. It moves the stage or the
body tube up and down to bring the specimen into general focus.
Fine Adjustment Knob: A smaller knob used for fine-tuning the focus of the specimen after using
the coarse adjustment knob. It moves the stage slightly to sharpen the image.
Draw Tube: The tube that connects the eyepiece to the microscope body.
Revolving Nosepiece: The part that holds two or more objective lenses and can be rotated to easily
change power (magnification).
Objective: The lenses closest to the specimen, that are typically of varying magnifications (e.g., 4x,
10x, 40x, 100x).8
Stage: The flat platform where the slide is placed for observation.
Diaphragm (Iris): A rotating disk under the stage with di_erent sized holes. It is used to vary the
intensity and size of the cone of light that is projected upward into the slide.
Illuminator: A light source located at the base of the microscope.
Base: The bottom part of the microscope that provides stability and support. It houses the
illuminator and other electrical components.

PLANT AND ANIMAL CELL
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Cell Anatomy
1. Centriole Involved in cell division; helps in the formation of spindle fibers that separate
chromosomes during mitosis.
2. Cytosol/Cytoplasm The jelly-like fluid inside the cell that holds the organelles and is the site of
many metabolic reactions.
3. Cytoskeleton A network of fibers that provides structural support for the cell, aids in cell
movement, and helps transport materials within the cell.
4. Nuclear DNA Contains the genetic blueprint for the organism, encoding instructions for protein
synthesis and cell function.
5. Golgi complex / Golgi apparatus Modifies, sorts, and packages proteins and lipids for storage or
transport out of the cell.
6. Lysosome Contains digestive enzymes that break down waste materials, cellular debris, and
foreign invaders like bacteria.
7. Cell membrane A semi-permeable membrane that surrounds the cell, providing protection and
structure, and controlling the movement of substances in and out of the cell.
8. Mitochondrion Known as the powerhouse of the cell, mitochondria generate most of the cell's7
supply of ATP (energy) through cellular respiration.
9. Nucleolus A structure within the nucleus responsible for producing and assembling ribosome
components.
10. Nucleus Contains the cell's genetic material (DNA) and controls the cell's activities by regulating
gene expression; acts as the command center of the cell.
11. Peroxisome Contains enzymes that break down fatty acids and amino acids and detoxify certain
chemicals, producing hydrogen peroxide as a byproduct, which is then converted to water.
12. Rough ER Studded with ribosomes and involved in protein synthesis and processing.
13. Ribosomes Small structures that are the site of protein synthesis; they can be found floating freely
in the cytoplasm or attached to the endoplasmic reticulum.
14. Smooth ER Lacks ribosomes and is involved in lipid synthesis and detoxification processes.
15. Vesicle Small membrane-bound sacs that transport and store substances

Q1. What are the main structural di_erences between plant and animal cells observed
under the microscope?
Cell Wall is present in plant cells.
Chloroplasts is present in plant cells.
Vacuoles in plant cells are often large and in animal cells are usually smaller.
Shape of plant cells is regular, box-like, while animal cells have a more irregular, rounded shape.

Q2. Why do plant cells have a cell wall, and what is its function?
The cell wall provides structural support and protection to the plant cell.
It helps maintain the cell's shape and prevents it from bursting when water enters the cell.

Q3. How does the shape of the cells di_er between plant and animal cells, and why?
Plant cells generally have a more regular, box-like shape due to the presence of a rigid cell wall
that provides structural support, while animal cells have a more irregular, rounded shape
because they lack a cell wall and are only surrounded by a flexible cell membrane, allowing them
to adopt various shapes and facilitating their movement and interaction with other cells.

Q4. What are the similarities between plant and animal cells?
Nucleus: Both plant and animal cells have a nucleus that contains their genetic material.
Cell Membrane: Both types of cells have a cell membrane that controls the movement of
substances in and out of the cell.
Cytoplasm: Both cells contain cytoplasm, a jelly- like substance that holds the organelles and
is the site of many metabolic reactions.
Organelles: Both plant and animal cells have other common organelles, such as mitochondria,
endoplasmic reticulum, Golgi apparatus, and ribosomes.
UNICELLULAR AND MULTICELLULAR CELL

MITOSIS
Q1. A mosquito cell in interphase has six chromosomes. How many sister chromatids does the
same cell have during metaphase?

A mosquito cell that has six chromosomes in interphase will have 12 sister chromatids during
metaphase:

Cell phase Number of sister chromatids

Interphase —

Metaphase 12
During interphase, DNA replication creates two identical copies of each chromosome, called sister
chromatids. The sister chromatids are joined at the centromere. During metaphase, the sister
chromatids line up in the center of the cell and are ready to be separated in the next stages, anaphase
and telophase.

Q2. A human cell in early prophase has 46 chromosomes. How many chromosomes does one
of the daughter cells have immediately after mitosis and cytokinesis?
If a human cell in early prophase has 46 chromosomes, then each daughter cell will have 46
chromosomes after mitosis and cytokinesis:
Mitosis - During mitosis, the cell's duplicated chromosomes are separated and distributed into
two groups, each with 46 chromosomes.
Cytokinesis - The cell then splits into two daughter cells, each with 46 chromosomes. The
daughter cells are identical to the parent cell.
This process is called mitosis and cytokinesis, and it produces two genetically identical daughter cells.
MEIOSIS
MEIOSIS AND GAMETE FORMATION

Meiosis in Males
Spermatogenesis
The process by which sperm are produced in male animals
occurs in the testes (male reproductive organs)

a diploid cell first large immature cell The large cell then
increases in size (germ cell). undergoes meiosis I

The four cells change Two cells are produced,
each of which
in form and develop a undergoes meiosis II to
tail to become male form a total of four
gametes called sperm. haploid cells

Meiosis in Females
Oogenesis
The process by which gametes are produced in female animals
Notice that during cytokinesis following meiosis I, the cytoplasm divides unequally. One of the
resulting cells gets nearly all of the cytoplasm. It is this cell that will ultimately give rise to an egg
cell. The other cell is very small and is called a polar body. The polar bodies degenerate after
oogenesis.
1. How many is the chromosome number found in a human body?
The chromosome number found in a human body is 46.
2. The cell of a fruit fly has 8 chromosomes. How many chromosomes does an egg cell of a fruit fly
have?
The cell of a fruit fly has 8 chromosomes. An egg cell of a fruit fly has 4 chromosomes.
3. Male gametes are called sperm.
4. Female gametes are called ova.
5. True or False. The chromosomes found in body cells are paired.
True. The chromosomes found in body cells are paired.
6. True or False. Meiosis maintains the number of chromosomes.
False. Meiosis reduces the number of chromosomes by half.
7. True or False. The process of meiosis produces gametes.
True. The process of meiosis produces gametes.
8. During meiotic (meiosis) cell division, how many daughter cells are produced?
During meiotic (meiosis) cell division, 4 daughter cells are produced.
9. What are the sex chromosomes for females?
The sex chromosomes for females are XX.
10. How many chromosomes does a human sperm cell contain?
A human sperm cell contains 23 chromosomes.
ASEXUAL REPRODUCTION
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LEVELS OF BIOLOGICAL AND ECOLOGICAL ORGANIZATION

Ecology is the study of interrelationships among
organisms and their interaction with the environment.
Organisms are a_ected by both biotic (living) and
abiotic (non-living) factors.
A habitat is the natural home or environment of an
organism.
Biological organization is organizing the various levels
of biological complexity, from the simplest to the
most complex, using a reductionist approach, which
means that complex systems are understood by
breaking them down into their constituent parts. This
hierarchical organization helps scientists and
biologists better understand and study living
organisms and their interactions.

FOOD CHAIN AND FOOD WEB
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